From 3458f2749c7f378c2faa4566e023e2c27bf1fd56 Mon Sep 17 00:00:00 2001 From: inugent Date: Thu, 14 Aug 2014 09:54:21 +0200 Subject: [PATCH 1/3] Adding BaBar DEC files --- BaBar_2014/ADSmd0kmkpi.dec | 36 + BaBar_2014/ADSmd0kmkpimdcs.dec | 36 + BaBar_2014/ADSmd0pimkpimdcs.dec | 36 + BaBar_2014/ADSmdstar0kmd0gammamkpi.dec | 46 + BaBar_2014/ADSmdstar0kmd0gammamkpimdcs.dec | 46 + BaBar_2014/ADSmdstar0kmd0pi0mkpi.dec | 46 + BaBar_2014/ADSmdstar0kmd0pi0mkpimdcs.dec | 46 + BaBar_2014/ADSmdstar0pimd0gammamkpimdcs.dec | 46 + BaBar_2014/ADSmdstar0pimd0pi0mkpimdcs.dec | 46 + BaBar_2014/B0B0B_K0ee_Ali.dec | 26 + BaBar_2014/B0B0B_K0mumu_Ali.dec | 26 + BaBar_2014/B0B0B_KSee_Ali.dec | 31 + BaBar_2014/B0B0B_KSee_Ball.dec | 31 + BaBar_2014/B0B0B_KSemu_PHSP.dec | 34 + BaBar_2014/B0B0B_KSmumu_Ali.dec | 33 + BaBar_2014/B0B0B_KSmumu_Ball.dec | 33 + BaBar_2014/B0B0B_Ksgg_PHSP.dec | 33 + BaBar_2014/B0B0B_KstarKSPi0_ee_Ball.dec | 49 + BaBar_2014/B0B0B_KstarKSPi0_mumu_Ball.dec | 49 + BaBar_2014/B0B0B_Kstaree_Ali.dec | 28 + BaBar_2014/B0B0B_Kstaree_KSpi0_Ali.dec | 49 + BaBar_2014/B0B0B_Kstaree_Kpi_Ali.dec | 44 + BaBar_2014/B0B0B_Kstaremu_KSpi0_PHSP.dec | 51 + BaBar_2014/B0B0B_Kstarmumu_Ali.dec | 28 + BaBar_2014/B0B0B_Kstarmumu_KSpi0_Ali.dec | 49 + BaBar_2014/B0B0B_Kstarmumu_Kpi_Ali.dec | 44 + BaBar_2014/B0B0B_Kstarpmee_Ball.dec | 44 + BaBar_2014/B0B0B_Kstarpmemmup_PHSP.dec | 43 + BaBar_2014/B0B0B_Kstarpmepmum_PHSP.dec | 44 + BaBar_2014/B0B0B_Kstarpmmumu_Ball.dec | 44 + .../B0B0B_Xsee_Ali02_mb480_pf410_JetSet02.dec | 65 + ...B_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec | 63 + ...B_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec | 62 + ...B_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec | 62 + .../B0B0B_Xsgamma_Kagan99_mb465_JetSet02.dec | 62 + .../B0B0B_Xsgamma_Kagan99_mb470_JetSet02.dec | 62 + .../B0B0B_Xsgamma_Kagan99_mb475_JetSet02.dec | 62 + .../B0B0B_Xsgamma_Kagan99_mb480_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec | 62 + ...mma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec | 62 + .../B0B0B_Xsgamma_Kagan99_mb485_JetSet02.dec | 62 + .../B0B0B_Xsgamma_Kagan99_mb490_JetSet02.dec | 62 + .../B0B0B_Xsgamma_Kagan99_mb495_JetSet02.dec | 62 + ...0B0B_Xsmumu_Ali02_mb480_pf410_JetSet02.dec | 65 + BaBar_2014/B0B0B_etaee_Ball.dec | 33 + BaBar_2014/B0B0B_etaemu_PHSP.dec | 29 + BaBar_2014/B0B0B_etamumu_Ball.dec | 33 + BaBar_2014/B0B0B_etapee_Ball.dec | 33 + BaBar_2014/B0B0B_etapemu_PHSP.dec | 29 + BaBar_2014/B0B0B_etapmumu_Ball.dec | 33 + BaBar_2014/B0B0B_genericK0_ee_Ball.dec | 26 + BaBar_2014/B0B0B_genericK0_mumu_Ball.dec | 26 + BaBar_2014/B0B0B_genericKstar_ee_Ball.dec | 28 + BaBar_2014/B0B0B_genericKstar_mumu_Ball.dec | 28 + BaBar_2014/B0B0B_omegaee_Ball.dec | 33 + BaBar_2014/B0B0B_omegaemu_PHSP.dec | 29 + BaBar_2014/B0B0B_omegamumu_Ball.dec | 33 + BaBar_2014/B0B0B_phiee_PHSP.dec | 31 + BaBar_2014/B0B0B_phiemu_PHSP.dec | 33 + BaBar_2014/B0B0B_phimumu_PHSP.dec | 31 + BaBar_2014/B0B0B_pi0ee_Ball.dec | 28 + BaBar_2014/B0B0B_pi0emu_PHSP.dec | 29 + BaBar_2014/B0B0B_pi0mumu_Ball.dec | 28 + BaBar_2014/B0B0B_rho0ee_Ball.dec | 33 + BaBar_2014/B0B0B_rho0emu_PHSP.dec | 29 + BaBar_2014/B0B0B_rho0mumu_Ball.dec | 33 + BaBar_2014/B0B0Bar_Dpipi_D0Kpi_nonres.dec | 41 + BaBar_2014/B0B0Bar_Dpipi_nonres.dec | 65 + BaBar_2014/B0B0Bar_Dstarpipi_D0Kpi_nonres.dec | 50 + BaBar_2014/B0B0Bar_Dstarpipi_nonres.dec | 76 + BaBar_2014/B0B0_f0f0.dec | 35 + BaBar_2014/B0B0_phiKSpi0_phiK0LK0S.dec | 46 + BaBar_2014/B0B0bar_2K0SK0L.dec | 36 + BaBar_2014/B0B0bar_2KK0.dec | 31 + BaBar_2014/B0B0bar_2Kpi0.dec | 30 + BaBar_2014/B0B0bar_2piK0.dec | 31 + BaBar_2014/B0B0bar_2piK0l.dec | 31 + BaBar_2014/B0B0bar_2pipi0.dec | 30 + BaBar_2014/B0B0bar_3K0S.dec | 35 + BaBar_2014/B0B0bar_3pi0.dec | 28 + BaBar_2014/B0B0bar_3pi_CP.dec | 34 + BaBar_2014/B0B0bar_4pi.dec | 40 + BaBar_2014/B0B0bar_B0toD0Kpi_D0CP.dec | 181 + BaBar_2014/B0B0bar_B0toD0Kpi_D0NonCP.dec | 142 + BaBar_2014/B0B0bar_B0toD0Kstarpi_D0CP.dec | 191 + BaBar_2014/B0B0bar_B0toD0Kstarpi_D0NonCP.dec | 152 + BaBar_2014/B0B0bar_B0toD0barKpi_D0NonCP.dec | 142 + .../B0B0bar_B0toD0barKstarpi_D0NonCP.dec | 152 + BaBar_2014/B0B0bar_B0toDstar0Kpi_D0CP.dec | 199 + BaBar_2014/B0B0bar_B0toDstar0Kpi_D0NonCP.dec | 160 + BaBar_2014/B0B0bar_B0toDstar0Kstarpi_D0CP.dec | 209 + .../B0B0bar_B0toDstar0Kstarpi_D0NonCP.dec | 170 + .../B0B0bar_B0toDstar0barKpi_D0NonCP.dec | 160 + .../B0B0bar_B0toDstar0barKstarpi_D0NonCP.dec | 170 + .../B0B0bar_BrecoCocktail_dstartaunu_d0_e.dec | 180 + ...B0bar_BrecoCocktail_dstartaunu_d0_excl.dec | 276 + ...B0B0bar_BrecoCocktail_dstartaunu_d0_mu.dec | 180 + ...B0B0bar_BrecoCocktail_dstartaunu_dch_e.dec | 180 + ...0bar_BrecoCocktail_dstartaunu_dch_excl.dec | 246 + ...0B0bar_BrecoCocktail_dstartaunu_dch_mu.dec | 180 + BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_e.dec | 170 + .../B0B0bar_BrecoCocktail_dtaunu_excl.dec | 236 + .../B0B0bar_BrecoCocktail_dtaunu_mu.dec | 170 + ...0B0bar_Breco_DXpDstarX_Ksnunu_cocktail.dec | 162 + ...ar_Breco_DXpDstarX_Kstar0nunu_cocktail.dec | 181 + .../B0B0bar_Breco_DXpDstarX_cocktail.dec | 146 + ...0bar_Breco_DXpDstarX_cocktail_dgog=0.1.dec | 150 + ...0bar_Breco_DXpDstarX_cocktail_dgog=0.2.dec | 150 + ...0bar_Breco_DXpDstarX_cocktail_dgog=0.4.dec | 150 + .../B0B0bar_Breco_DXpDstarX_etau_cocktail.dec | 167 + ...B0B0bar_Breco_DXpDstarX_mutau_cocktail.dec | 167 + ...B0bar_Breco_DXpDstarX_nunubar_cocktail.dec | 165 + ..._Breco_DXpDstarX_nunubargamma_cocktail.dec | 165 + ...B0bar_Breco_DXpDstarX_pi0nunu_cocktail.dec | 162 + ...0bar_Breco_DXpDstarX_tauptaum_cocktail.dec | 162 + ...r_Breco_cocktail_dgog=0.2_qop=1.04_z=0.dec | 157 + ...r_Breco_cocktail_dgog=0.4_qop=1.08_z=0.dec | 157 + BaBar_2014/B0B0bar_Chi0cKs.dec | 47 + BaBar_2014/B0B0bar_Chi0cKs_All.dec | 39 + BaBar_2014/B0B0bar_Chi0cKstar_K.dec | 52 + BaBar_2014/B0B0bar_Chi0cKstar_KS.dec | 57 + BaBar_2014/B0B0bar_Chi1cKL.dec | 43 + BaBar_2014/B0B0bar_Chi1cKL_E1.dec | 65 + BaBar_2014/B0B0bar_Chi1cKS.dec | 47 + BaBar_2014/B0B0bar_Chi1cKS_00.dec | 48 + BaBar_2014/B0B0bar_Chi1cKS_E1.dec | 70 + .../B0B0bar_Chi1cKS_dgog=0.2_qop=1.04_z=0.dec | 59 + .../B0B0bar_Chi1cKS_dgog=0.4_qop=1.08_z=0.dec | 59 + BaBar_2014/B0B0bar_Chi1cKs2Pi0.dec | 47 + BaBar_2014/B0B0bar_Chi1cKs2Pi0_E1.dec | 71 + BaBar_2014/B0B0bar_Chi1cKs_All.dec | 39 + BaBar_2014/B0B0bar_Chi1cKstar_chgd_sp3.dec | 94 + BaBar_2014/B0B0bar_Chi1cKstar_sp3.dec | 100 + .../B0B0bar_Chic1Kstar_KpPim_RunIpIIPol.dec | 96 + .../B0B0bar_Chic1Kstar_KsPi0_RunIpIIPol.dec | 100 + BaBar_2014/B0B0bar_D0D0_K3piK3pi.dec | 160 + BaBar_2014/B0B0bar_D0D0_K3piKspipi.dec | 165 + BaBar_2014/B0B0bar_D0D0_KpiK3pi.dec | 154 + BaBar_2014/B0B0bar_D0D0_KpiKpi.dec | 129 + BaBar_2014/B0B0bar_D0D0_KpiKpipi0.dec | 129 + BaBar_2014/B0B0bar_D0D0_KpiKspipi.dec | 140 + BaBar_2014/B0B0bar_D0D0_Kpipi0K3pi.dec | 154 + BaBar_2014/B0B0bar_D0D0_Kpipi0Kpipi0.dec | 129 + BaBar_2014/B0B0bar_D0D0_Kpipi0Kspipi.dec | 140 + BaBar_2014/B0B0bar_D0D0_KspipiKspipi.dec | 141 + BaBar_2014/B0B0bar_D0K3pi_D0barKpi_K0S.dec | 194 + .../B0B0bar_D0K3pi_Dstar0barKpi_K0S.dec | 194 + BaBar_2014/B0B0bar_D0KS.dec | 131 + BaBar_2014/B0B0bar_D0KS_Kpi.dec | 62 + BaBar_2014/B0B0bar_D0Kpi_D0CP.dec | 181 + BaBar_2014/B0B0bar_D0Kpi_D0NonCP.dec | 144 + BaBar_2014/B0B0bar_D0Kpi_D0barKpi_K0S.dec | 194 + BaBar_2014/B0B0bar_D0Kpi_Dstar0barKpi_K0S.dec | 194 + BaBar_2014/B0B0bar_D0Kpipi0_D0barKpi_K0S.dec | 194 + .../B0B0bar_D0Kpipi0_Dstar0barKpi_K0S.dec | 194 + BaBar_2014/B0B0bar_D0Ks_D0mKK.dec | 43 + BaBar_2014/B0B0bar_D0Ks_D0mKpi.dec | 43 + BaBar_2014/B0B0bar_D0Ks_D0mpipi.dec | 43 + BaBar_2014/B0B0bar_D0Ks_K3pi.dec | 55 + BaBar_2014/B0B0bar_D0Ks_Kpi.dec | 55 + BaBar_2014/B0B0bar_D0Ks_Kpipi0.dec | 55 + BaBar_2014/B0B0bar_D0Kspi0_K3pi.dec | 55 + BaBar_2014/B0B0bar_D0Kspi0_Kpi.dec | 55 + BaBar_2014/B0B0bar_D0Kspi0_Kpipi0.dec | 55 + BaBar_2014/B0B0bar_D0Kstar0.dec | 121 + BaBar_2014/B0B0bar_D0Kstar0_D0mpipimKK.dec | 66 + BaBar_2014/B0B0bar_D0Kstar0_Kpi.dec | 67 + BaBar_2014/B0B0bar_D0Kstar0_Vub.dec | 126 + BaBar_2014/B0B0bar_D0bK3pi_D0K3pi_K0S.dec | 195 + BaBar_2014/B0B0bar_D0bKpi_D0K3pi_K0S.dec | 195 + BaBar_2014/B0B0bar_D0bKpi_D0Kpi_K0S.dec | 195 + BaBar_2014/B0B0bar_D0bKpi_D0Kpipi0_K0S.dec | 195 + BaBar_2014/B0B0bar_D0bKpipi0_D0K3pi_K0S.dec | 195 + BaBar_2014/B0B0bar_D0bKpipi0_D0Kpipi0_K0S.dec | 195 + BaBar_2014/B0B0bar_D0ma0p.dec | 71 + BaBar_2014/B0B0bar_D0ppbar2pi_Kpi.dec | 43 + BaBar_2014/B0B0bar_D0ppbar_K2pi.dec | 43 + BaBar_2014/B0B0bar_D0ppbar_K3pi.dec | 42 + BaBar_2014/B0B0bar_D0ppbar_Kpi.dec | 43 + BaBar_2014/B0B0bar_D0ppbar_Ks2pi.dec | 48 + BaBar_2014/B0B0bar_D1plnu_Dstr0pi.dec | 89 + BaBar_2014/B0B0bar_D1pluslnu_D0Kpi.dec | 67 + .../B0B0bar_D1pluslnu_Dstr0PDG_D0Kpi.dec | 99 + BaBar_2014/B0B0bar_D1primepluslnu_D0Kpi.dec | 67 + BaBar_2014/B0B0bar_D2Spluslnu_D0Kpi.dec | 67 + BaBar_2014/B0B0bar_D2Sstrpluslnu_D0Kpi.dec | 67 + BaBar_2014/B0B0bar_D2strplnu_Dpi.dec | 88 + BaBar_2014/B0B0bar_D2strplnu_Dstr0pi.dec | 89 + BaBar_2014/B0B0bar_D2strpluslnu_D0Kpi.dec | 67 + .../B0B0bar_D2strpluslnu_Dstr0PDG_D0Kpi.dec | 99 + BaBar_2014/B0B0bar_DD_exclusive.dec | 206 + BaBar_2014/B0B0bar_DK_DmKpipi.dec | 36 + BaBar_2014/B0B0bar_DK_Dmkspi.dec | 41 + BaBar_2014/B0B0bar_DK_Dmpimpi0.dec | 36 + BaBar_2014/B0B0bar_DKstar.dec | 70 + BaBar_2014/B0B0bar_D_1pa1m_DstarD0pi.dec | 50 + BaBar_2014/B0B0bar_D_1ppim_DstarD0pi.dec | 50 + BaBar_2014/B0B0bar_D_1prhom_DstarD0pi.dec | 50 + .../B0B0bar_D_1prhom_DstarD0pi_D0K3pi.dec | 59 + .../B0B0bar_D_1prhom_DstarD0pi_D0Kpi.dec | 60 + .../B0B0bar_D_1prhom_DstarD0pi_D0Kpipi0.dec | 59 + BaBar_2014/B0B0bar_D_2starpa1m_DstarD0pi.dec | 50 + BaBar_2014/B0B0bar_D_2starppim_DstarD0pi.dec | 50 + BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi.dec | 50 + .../B0B0bar_D_2starprhom_DstarD0pi_D0K3pi.dec | 59 + .../B0B0bar_D_2starprhom_DstarD0pi_D0Kpi.dec | 60 + ...0B0bar_D_2starprhom_DstarD0pi_D0Kpipi0.dec | 59 + .../B0B0bar_D_sstarDch_D_sgDch_Ks0KKpipi.dec | 147 + .../B0B0bar_D_sstarDch_D_sgDch_Ks0KKspi.dec | 149 + ...0B0bar_D_sstarDch_D_sgDch_Kstar0KKpipi.dec | 141 + ...B0B0bar_D_sstarDch_D_sgDch_Kstar0KKspi.dec | 153 + .../B0B0bar_D_sstarDch_D_sgDch_phipiKpipi.dec | 137 + .../B0B0bar_D_sstarDch_D_sgDch_phipiKspi.dec | 149 + ...B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi.dec | 179 + ...bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_001.dec | 178 + ...bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_010.dec | 178 + ...bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_100.dec | 178 + ...ar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_phsp.dec | 178 + ...bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim001.dec | 178 + ...bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim010.dec | 178 + ...bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim100.dec | 178 + .../B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi.dec | 154 + ...0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_001.dec | 153 + ...0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_010.dec | 153 + ...0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_100.dec | 153 + ...bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_phsp.dec | 153 + ...0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim001.dec | 153 + ...0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim010.dec | 153 + ...0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim100.dec | 153 + ...B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0.dec | 154 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_001.dec | 153 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_010.dec | 153 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_100.dec | 153 + ..._D_sstarDstar_D_sgD0pi_Ks0KKpipi0_phsp.dec | 153 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m001.dec | 153 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m010.dec | 153 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m100.dec | 153 + ...B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi.dec | 155 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKspipi_001.dec | 154 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKspipi_010.dec | 154 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKspipi_100.dec | 154 + ..._D_sstarDstar_D_sgD0pi_Ks0KKspipi_phsp.dec | 154 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKspipim001.dec | 154 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKspipim010.dec | 154 + ...r_D_sstarDstar_D_sgD0pi_Ks0KKspipim100.dec | 154 + ...0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi.dec | 173 + ..._D_sstarDstar_D_sgD0pi_Kstar0KK3pi_001.dec | 168 + ..._D_sstarDstar_D_sgD0pi_Kstar0KK3pi_010.dec | 168 + ..._D_sstarDstar_D_sgD0pi_Kstar0KK3pi_100.dec | 168 + ...D_sstarDstar_D_sgD0pi_Kstar0KK3pi_phsp.dec | 172 + ..._D_sstarDstar_D_sgD0pi_Kstar0KK3pim001.dec | 172 + ..._D_sstarDstar_D_sgD0pi_Kstar0KK3pim010.dec | 172 + ..._D_sstarDstar_D_sgD0pi_Kstar0KK3pim100.dec | 172 + ...B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi.dec | 148 + ...r_D_sstarDstar_D_sgD0pi_Kstar0KKpi_001.dec | 143 + ...r_D_sstarDstar_D_sgD0pi_Kstar0KKpi_010.dec | 143 + ...r_D_sstarDstar_D_sgD0pi_Kstar0KKpi_100.dec | 143 + ..._D_sstarDstar_D_sgD0pi_Kstar0KKpi_phsp.dec | 147 + ...r_D_sstarDstar_D_sgD0pi_Kstar0KKpim001.dec | 147 + ...r_D_sstarDstar_D_sgD0pi_Kstar0KKpim010.dec | 147 + ...r_D_sstarDstar_D_sgD0pi_Kstar0KKpim100.dec | 147 + ...ar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0.dec | 148 + ..._sstarDstar_D_sgD0pi_Kstar0KKpipi0_001.dec | 143 + ..._sstarDstar_D_sgD0pi_Kstar0KKpipi0_010.dec | 143 + ..._sstarDstar_D_sgD0pi_Kstar0KKpipi0_100.dec | 143 + ...sstarDstar_D_sgD0pi_Kstar0KKpipi0_phsp.dec | 147 + ..._sstarDstar_D_sgD0pi_Kstar0KKpipi0m001.dec | 147 + ..._sstarDstar_D_sgD0pi_Kstar0KKpipi0m010.dec | 147 + ..._sstarDstar_D_sgD0pi_Kstar0KKpipi0m100.dec | 147 + ...ar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi.dec | 159 + ..._sstarDstar_D_sgD0pi_Kstar0KKspipi_001.dec | 154 + ..._sstarDstar_D_sgD0pi_Kstar0KKspipi_010.dec | 154 + ..._sstarDstar_D_sgD0pi_Kstar0KKspipi_100.dec | 154 + ...sstarDstar_D_sgD0pi_Kstar0KKspipi_phsp.dec | 158 + ..._sstarDstar_D_sgD0pi_Kstar0KKspipim001.dec | 158 + ..._sstarDstar_D_sgD0pi_Kstar0KKspipim010.dec | 158 + ..._sstarDstar_D_sgD0pi_Kstar0KKspipim100.dec | 158 + ...0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi.dec | 169 + ...ar_D_sstarDstar_D_sgD0pi_phipiK3pi_001.dec | 168 + ...ar_D_sstarDstar_D_sgD0pi_phipiK3pi_010.dec | 168 + ...ar_D_sstarDstar_D_sgD0pi_phipiK3pi_100.dec | 168 + ...r_D_sstarDstar_D_sgD0pi_phipiK3pi_phsp.dec | 168 + ...ar_D_sstarDstar_D_sgD0pi_phipiK3pim001.dec | 168 + ...ar_D_sstarDstar_D_sgD0pi_phipiK3pim010.dec | 168 + ...ar_D_sstarDstar_D_sgD0pi_phipiK3pim100.dec | 168 + ...B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi.dec | 144 + ...bar_D_sstarDstar_D_sgD0pi_phipiKpi_001.dec | 143 + ...bar_D_sstarDstar_D_sgD0pi_phipiKpi_010.dec | 143 + ...bar_D_sstarDstar_D_sgD0pi_phipiKpi_100.dec | 143 + ...ar_D_sstarDstar_D_sgD0pi_phipiKpi_phsp.dec | 143 + ...bar_D_sstarDstar_D_sgD0pi_phipiKpim001.dec | 143 + ...bar_D_sstarDstar_D_sgD0pi_phipiKpim010.dec | 143 + ...bar_D_sstarDstar_D_sgD0pi_phipiKpim100.dec | 143 + ...0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0.dec | 144 + ..._D_sstarDstar_D_sgD0pi_phipiKpipi0_001.dec | 143 + ..._D_sstarDstar_D_sgD0pi_phipiKpipi0_010.dec | 143 + ..._D_sstarDstar_D_sgD0pi_phipiKpipi0_100.dec | 143 + ...D_sstarDstar_D_sgD0pi_phipiKpipi0_phsp.dec | 143 + ..._D_sstarDstar_D_sgD0pi_phipiKpipi0m001.dec | 143 + ..._D_sstarDstar_D_sgD0pi_phipiKpipi0m010.dec | 143 + ..._D_sstarDstar_D_sgD0pi_phipiKpipi0m100.dec | 143 + ...0bar_D_sstarDstar_D_sgD0pi_phipiKspipi.dec | 155 + ..._D_sstarDstar_D_sgD0pi_phipiKspipi_001.dec | 154 + ..._D_sstarDstar_D_sgD0pi_phipiKspipi_010.dec | 154 + ..._D_sstarDstar_D_sgD0pi_phipiKspipi_100.dec | 154 + ...D_sstarDstar_D_sgD0pi_phipiKspipi_phsp.dec | 154 + ..._D_sstarDstar_D_sgD0pi_phipiKspipim001.dec | 154 + ..._D_sstarDstar_D_sgD0pi_phipiKspipim010.dec | 154 + ..._D_sstarDstar_D_sgD0pi_phipiKspipim100.dec | 154 + ...0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi.dec | 154 + ..._D_sstarDstar_D_sgDchpi0_Ks0KKpipi_001.dec | 153 + ..._D_sstarDstar_D_sgDchpi0_Ks0KKpipi_010.dec | 153 + ..._D_sstarDstar_D_sgDchpi0_Ks0KKpipi_100.dec | 153 + ...D_sstarDstar_D_sgDchpi0_Ks0KKpipi_phsp.dec | 153 + ..._D_sstarDstar_D_sgDchpi0_Ks0KKpipim001.dec | 153 + ..._D_sstarDstar_D_sgDchpi0_Ks0KKpipim010.dec | 153 + ..._D_sstarDstar_D_sgDchpi0_Ks0KKpipim100.dec | 153 + ...B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi.dec | 156 + ...r_D_sstarDstar_D_sgDchpi0_Ks0KKspi_001.dec | 155 + ...r_D_sstarDstar_D_sgDchpi0_Ks0KKspi_010.dec | 155 + ...r_D_sstarDstar_D_sgDchpi0_Ks0KKspi_100.dec | 155 + ..._D_sstarDstar_D_sgDchpi0_Ks0KKspi_phsp.dec | 155 + ...r_D_sstarDstar_D_sgDchpi0_Ks0KKspim001.dec | 155 + ...r_D_sstarDstar_D_sgDchpi0_Ks0KKspim010.dec | 155 + ...r_D_sstarDstar_D_sgDchpi0_Ks0KKspim100.dec | 155 + ...r_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi.dec | 148 + ...sstarDstar_D_sgDchpi0_Kstar0KKpipi_001.dec | 143 + ...sstarDstar_D_sgDchpi0_Kstar0KKpipi_010.dec | 143 + ...sstarDstar_D_sgDchpi0_Kstar0KKpipi_100.dec | 143 + ...starDstar_D_sgDchpi0_Kstar0KKpipi_phsp.dec | 147 + ...sstarDstar_D_sgDchpi0_Kstar0KKpipim001.dec | 147 + ...sstarDstar_D_sgDchpi0_Kstar0KKpipim010.dec | 147 + ...sstarDstar_D_sgDchpi0_Kstar0KKpipim100.dec | 147 + ...ar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi.dec | 160 + ..._sstarDstar_D_sgDchpi0_Kstar0KKspi_001.dec | 155 + ..._sstarDstar_D_sgDchpi0_Kstar0KKspi_010.dec | 155 + ..._sstarDstar_D_sgDchpi0_Kstar0KKspi_100.dec | 155 + ...sstarDstar_D_sgDchpi0_Kstar0KKspi_phsp.dec | 159 + ..._sstarDstar_D_sgDchpi0_Kstar0KKspim001.dec | 159 + ..._sstarDstar_D_sgDchpi0_Kstar0KKspim010.dec | 159 + ..._sstarDstar_D_sgDchpi0_Kstar0KKspim100.dec | 159 + ...bar_D_sstarDstar_D_sgDchpi0_phipiKpipi.dec | 144 + ...D_sstarDstar_D_sgDchpi0_phipiKpipi_001.dec | 143 + ...D_sstarDstar_D_sgDchpi0_phipiKpipi_010.dec | 143 + ...D_sstarDstar_D_sgDchpi0_phipiKpipi_100.dec | 143 + ..._sstarDstar_D_sgDchpi0_phipiKpipi_phsp.dec | 143 + ...D_sstarDstar_D_sgDchpi0_phipiKpipim001.dec | 143 + ...D_sstarDstar_D_sgDchpi0_phipiKpipim010.dec | 143 + ...D_sstarDstar_D_sgDchpi0_phipiKpipim100.dec | 143 + ...0bar_D_sstarDstar_D_sgDchpi0_phipiKspi.dec | 156 + ..._D_sstarDstar_D_sgDchpi0_phipiKspi_001.dec | 155 + ..._D_sstarDstar_D_sgDchpi0_phipiKspi_010.dec | 155 + ..._D_sstarDstar_D_sgDchpi0_phipiKspi_100.dec | 155 + ...D_sstarDstar_D_sgDchpi0_phipiKspi_phsp.dec | 155 + ..._D_sstarDstar_D_sgDchpi0_phipiKspim001.dec | 155 + ..._D_sstarDstar_D_sgDchpi0_phipiKspim010.dec | 155 + ..._D_sstarDstar_D_sgDchpi0_phipiKspim100.dec | 155 + BaBar_2014/B0B0bar_DcKsPi.dec | 68 + BaBar_2014/B0B0bar_DchD_sch_KpipiK0K.dec | 140 + BaBar_2014/B0B0bar_DchD_sch_KpipiKstar0K.dec | 134 + BaBar_2014/B0B0bar_DchD_sch_Kpipiphipi.dec | 130 + BaBar_2014/B0B0bar_DchD_sch_KspiK0K.dec | 142 + BaBar_2014/B0B0bar_DchD_sch_KspiKstar0K.dec | 146 + BaBar_2014/B0B0bar_DchD_sch_Kspiphipi.dec | 142 + BaBar_2014/B0B0bar_DchDch_KKpiKKpi.dec | 100 + BaBar_2014/B0B0bar_DchDch_KpipiKKpi.dec | 112 + BaBar_2014/B0B0bar_DchDch_KpipiKpipi.dec | 129 + BaBar_2014/B0B0bar_DchDch_KpipiKspi.dec | 141 + BaBar_2014/B0B0bar_DchDch_KpipiKspipi0.dec | 108 + BaBar_2014/B0B0bar_DchDch_KspiKKpi.dec | 121 + BaBar_2014/B0B0bar_DchDch_KspiKspi.dec | 143 + BaBar_2014/B0B0bar_DchDch_KspiKspipi0.dec | 120 + BaBar_2014/B0B0bar_DchDch_Kspipi0KKpi.dec | 122 + BaBar_2014/B0B0bar_DchDch_Kspipi0Kspipi0.dec | 99 + BaBar_2014/B0B0bar_DchK2pi_D0K3pi_K.dec | 195 + BaBar_2014/B0B0bar_DchK2pi_D0Kpi_K.dec | 195 + BaBar_2014/B0B0bar_DchK2pi_D0Kpipi0_K.dec | 195 + BaBar_2014/B0B0bar_DchK2pi_DchK2pi_K0S.dec | 195 + BaBar_2014/B0B0bar_DchK2pi_Dstar0K3pi_K.dec | 195 + BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpi_K.dec | 195 + BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpipi0_K.dec | 195 + BaBar_2014/B0B0bar_Denubar_DmKspi.dec | 44 + BaBar_2014/B0B0bar_Dlnu.dec | 44 + BaBar_2014/B0B0bar_DmKspip_Kpipi.dec | 55 + BaBar_2014/B0B0bar_DmKspip_Kspi.dec | 55 + BaBar_2014/B0B0bar_DmKspip_Kspipi0.dec | 55 + .../B0B0bar_DminusK2pi_D0K3pi_Kplus.dec | 142 + BaBar_2014/B0B0bar_DminusK2pi_D0Kpi_Kplus.dec | 142 + .../B0B0bar_DminusK2pi_D0Kpipi0_Kplus.dec | 142 + .../B0B0bar_DminusK2pi_DplusK2pi_K0S.dec | 149 + .../B0B0bar_DminusK2pi_Dstar0K3pi_Kplus.dec | 175 + .../B0B0bar_DminusK2pi_Dstar0Kpi_Kplus.dec | 175 + .../B0B0bar_DminusK2pi_Dstar0Kpipi0_Kplus.dec | 175 + .../B0B0bar_DminusKpipi_D0Kpi_Kplus.dec | 49 + BaBar_2014/B0B0bar_Dminusppbarpiplus_K2pi.dec | 39 + BaBar_2014/B0B0bar_Dminusppbarpiplus_K3pi.dec | 38 + .../B0B0bar_Dminusppbarpiplus_Ks2pi.dec | 56 + BaBar_2014/B0B0bar_Dminusppbarpiplus_Kspi.dec | 55 + ...B0B0bar_Dminusppbarpiplus_KspiK2piK3pi.dec | 64 + BaBar_2014/B0B0bar_Dmpip_DmKspipi0.dec | 54 + BaBar_2014/B0B0bar_Dmunubar_DmKspi.dec | 44 + BaBar_2014/B0B0bar_DpDm_Kpipi_Kpipi.dec | 98 + BaBar_2014/B0B0bar_Dpi.dec | 43 + BaBar_2014/B0B0bar_Dpi_CabSupD.dec | 69 + BaBar_2014/B0B0bar_Dpi_DK0pi.dec | 44 + BaBar_2014/B0B0bar_Dpi_DmKpipi.dec | 36 + BaBar_2014/B0B0bar_DplusK.dec | 37 + BaBar_2014/B0B0bar_DplusKst.dec | 61 + BaBar_2014/B0B0bar_DplusKstar.dec | 54 + BaBar_2014/B0B0bar_DpmKpipimpi_Xclnu.dec | 98 + BaBar_2014/B0B0bar_DpmKpipimpi_Xulnu.dec | 128 + .../B0B0bar_DpmKpipimrhompipi_Xclnu.dec | 98 + .../B0B0bar_DpmKpipimrhompipi_Xulnu.dec | 128 + BaBar_2014/B0B0bar_Dppim.dec | 34 + BaBar_2014/B0B0bar_Dppim_KsK.dec | 38 + BaBar_2014/B0B0bar_Dppim_Kspi.dec | 38 + BaBar_2014/B0B0bar_Dprhom.dec | 33 + .../B0B0bar_Dprime1pluslnu_Dstr0PDG_D0Kpi.dec | 99 + BaBar_2014/B0B0bar_Dprime_1pa1m_DstarD0pi.dec | 50 + BaBar_2014/B0B0bar_Dprime_1ppim_DstarD0pi.dec | 50 + .../B0B0bar_Dprime_1prhom_DstarD0pi.dec | 50 + ...B0B0bar_Dprime_1prhom_DstarD0pi_D0K3pi.dec | 60 + .../B0B0bar_Dprime_1prhom_DstarD0pi_D0Kpi.dec | 59 + ...B0bar_Dprime_1prhom_DstarD0pi_D0Kpipi0.dec | 59 + BaBar_2014/B0B0bar_DsDm_phipi_Kpipi.dec | 110 + BaBar_2014/B0B0bar_DsK_DsK0sK.dec | 53 + BaBar_2014/B0B0bar_DsK_Dskstark.dec | 59 + BaBar_2014/B0B0bar_DsK_Dsphipi.dec | 51 + BaBar_2014/B0B0bar_DsKstar_DsK0sK.dec | 63 + BaBar_2014/B0B0bar_DsKstar_Dskstark.dec | 67 + BaBar_2014/B0B0bar_DsKstar_Dsphipi.dec | 62 + BaBar_2014/B0B0bar_DsKstar_K0pi.dec | 98 + BaBar_2014/B0B0bar_DsKstar_recomodes.dec | 100 + BaBar_2014/B0B0bar_Ds_D_KstarK_k2pi.dec | 139 + BaBar_2014/B0B0bar_Ds_D_phipi_k2pi.dec | 139 + BaBar_2014/B0B0bar_Ds_D_recomodes.dec | 151 + BaBar_2014/B0B0bar_Ds_Dstar_KstarK_k3pi.dec | 137 + BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpi.dec | 131 + BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpipi0.dec | 131 + BaBar_2014/B0B0bar_Ds_Dstar_phipi_k3pi.dec | 137 + BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpi.dec | 131 + BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpipi0.dec | 131 + BaBar_2014/B0B0bar_Ds_Dstar_recomodes.dec | 151 + .../B0B0bar_Ds_a1_rho0_pi_recomodes.dec | 85 + BaBar_2014/B0B0bar_Ds_pi_recomodes.dec | 74 + BaBar_2014/B0B0bar_Ds_rho_recomodes.dec | 75 + BaBar_2014/B0B0bar_DspDsm_DspToPhiPip.dec | 47 + BaBar_2014/B0B0bar_Dsp_a0m.dec | 101 + BaBar_2014/B0B0bar_Dsp_a2m.dec | 101 + BaBar_2014/B0B0bar_Dspi_DsK0sK.dec | 50 + BaBar_2014/B0B0bar_Dspi_DsKstar0K.dec | 55 + BaBar_2014/B0B0bar_Dspi_DsetaPpi.dec | 51 + BaBar_2014/B0B0bar_Dspi_Dsetapi.dec | 45 + BaBar_2014/B0B0bar_Dspi_Dsphipi.dec | 51 + BaBar_2014/B0B0bar_Dsrho_DsetaPpi.dec | 50 + BaBar_2014/B0B0bar_Dsrho_Dsetapi.dec | 45 + .../B0B0bar_Dss0toDspi0_D_KstarK_k2pi.dec | 277 + .../B0B0bar_Dss0toDspi0_D_phipi_k2pi.dec | 279 + .../B0B0bar_Dss0toDspi0_Dstar_KstarK_k3pi.dec | 277 + .../B0B0bar_Dss0toDspi0_Dstar_KstarK_kpi.dec | 277 + ...0B0bar_Dss0toDspi0_Dstar_KstarK_kpipi0.dec | 277 + .../B0B0bar_Dss0toDspi0_Dstar_phipi_k3pi.dec | 279 + .../B0B0bar_Dss0toDspi0_Dstar_phipi_kpi.dec | 279 + ...B0B0bar_Dss0toDspi0_Dstar_phipi_kpipi0.dec | 279 + .../B0B0bar_Dss1toDsgamma_D_KstarK_k2pi.dec | 277 + .../B0B0bar_Dss1toDsgamma_D_phipi_k2pi.dec | 279 + ...0B0bar_Dss1toDsgamma_Dstar_KstarK_k3pi.dec | 277 + ...B0B0bar_Dss1toDsgamma_Dstar_KstarK_kpi.dec | 277 + ...0bar_Dss1toDsgamma_Dstar_KstarK_kpipi0.dec | 277 + ...B0B0bar_Dss1toDsgamma_Dstar_phipi_k3pi.dec | 279 + .../B0B0bar_Dss1toDsgamma_Dstar_phipi_kpi.dec | 279 + ...B0bar_Dss1toDsgamma_Dstar_phipi_kpipi0.dec | 279 + .../B0B0bar_Dss1toDspi0_D_KstarK_k2pi.dec | 277 + .../B0B0bar_Dss1toDspi0_D_phipi_k2pi.dec | 279 + .../B0B0bar_Dss1toDspi0_Dstar_KstarK_k3pi.dec | 277 + .../B0B0bar_Dss1toDspi0_Dstar_KstarK_kpi.dec | 277 + ...0B0bar_Dss1toDspi0_Dstar_KstarK_kpipi0.dec | 293 + .../B0B0bar_Dss1toDspi0_Dstar_phipi_k3pi.dec | 279 + .../B0B0bar_Dss1toDspi0_Dstar_phipi_kpi.dec | 279 + ...B0B0bar_Dss1toDspi0_Dstar_phipi_kpipi0.dec | 279 + .../B0B0bar_Dss1toDsstarpi0_D_KstarK_k2pi.dec | 286 + .../B0B0bar_Dss1toDsstarpi0_D_phipi_k2pi.dec | 288 + ...0bar_Dss1toDsstarpi0_Dstar_KstarK_k3pi.dec | 286 + ...B0bar_Dss1toDsstarpi0_Dstar_KstarK_kpi.dec | 286 + ...ar_Dss1toDsstarpi0_Dstar_KstarK_kpipi0.dec | 286 + ...B0bar_Dss1toDsstarpi0_Dstar_phipi_k3pi.dec | 288 + ...0B0bar_Dss1toDsstarpi0_Dstar_phipi_kpi.dec | 288 + ...bar_Dss1toDsstarpi0_Dstar_phipi_kpipi0.dec | 288 + BaBar_2014/B0B0bar_DsstarD_DsgammaD.dec | 234 + .../B0B0bar_DsstarDm_Dsg_phipi_kpipi.dec | 116 + .../B0B0bar_DsstarDstar_DsgD0p_KKpi_Kpi.dec | 151 + ...B0B0bar_DsstarDstar_DsgD0p_KKpipi0_Kpi.dec | 153 + ...B0B0bar_DsstarDstar_DsgD0p_Kpi0pi0_Kpi.dec | 151 + ...0bar_DsstarDstar_DsgD0p_Kpi0pi0pi0_Kpi.dec | 152 + .../B0B0bar_DsstarDstar_DsgD0p_Kpipi_Kpi.dec | 151 + ...0B0bar_DsstarDstar_DsgD0p_Kpipipi0_Kpi.dec | 153 + .../B0B0bar_DsstarDstar_DsgD0p_ggpi_Kpi.dec | 153 + ...B0bar_DsstarDstar_DsgD0p_pi0pipipi_Kpi.dec | 153 + .../B0B0bar_DsstarDstar_Dspi0D0p_KKpi_Kpi.dec | 153 + BaBar_2014/B0B0bar_DsstarDstar_exclusive.dec | 232 + BaBar_2014/B0B0bar_DsstarK_DsK0sK.dec | 63 + BaBar_2014/B0B0bar_DsstarK_DsKstarK.dec | 57 + BaBar_2014/B0B0bar_DsstarK_Dsphipi.dec | 55 + BaBar_2014/B0B0bar_DsstarKstar_DsK0sK.dec | 71 + BaBar_2014/B0B0bar_DsstarKstar_DsKstarK.dec | 65 + BaBar_2014/B0B0bar_DsstarKstar_Dsphipi.dec | 63 + BaBar_2014/B0B0bar_DsstarKstar_K0pi_long.dec | 106 + BaBar_2014/B0B0bar_DsstarKstar_K0pi_tran.dec | 106 + .../B0B0bar_DsstarKstar_recomodes_long.dec | 108 + .../B0B0bar_DsstarKstar_recomodes_tran.dec | 108 + BaBar_2014/B0B0bar_Dsstar_D_KstarK_k2pi.dec | 139 + BaBar_2014/B0B0bar_Dsstar_D_phipi_k2pi.dec | 139 + BaBar_2014/B0B0bar_Dsstar_D_recomodes.dec | 151 + .../B0B0bar_Dsstar_Dstar_KstarK_k2pi.dec | 70 + .../B0B0bar_Dsstar_Dstar_KstarK_k3pi.dec | 139 + .../B0B0bar_Dsstar_Dstar_KstarK_kpi.dec | 133 + .../B0B0bar_Dsstar_Dstar_KstarK_kpipi0.dec | 133 + .../B0B0bar_Dsstar_Dstar_KstarK_ks2pi.dec | 83 + .../B0B0bar_Dsstar_Dstar_KstarK_kspi.dec | 83 + .../B0B0bar_Dsstar_Dstar_phipi_k2pi.dec | 66 + .../B0B0bar_Dsstar_Dstar_phipi_k3pi.dec | 139 + BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kpi.dec | 133 + .../B0B0bar_Dsstar_Dstar_phipi_kpipi0.dec | 133 + .../B0B0bar_Dsstar_Dstar_phipi_ks2pi.dec | 80 + .../B0B0bar_Dsstar_Dstar_phipi_kspi.dec | 80 + BaBar_2014/B0B0bar_Dsstar_Dstar_recomodes.dec | 151 + ...B0bar_Dsstar_a1_rho0_pi_recomodes_long.dec | 101 + ...B0bar_Dsstar_a1_rho0_pi_recomodes_tran.dec | 101 + BaBar_2014/B0B0bar_Dsstar_pi_recomodes.dec | 88 + BaBar_2014/B0B0bar_Dsstar_rho_recomodes.dec | 83 + .../B0B0bar_Dsstar_rho_recomodes_long.dec | 88 + .../B0B0bar_Dsstar_rho_recomodes_tran.dec | 88 + BaBar_2014/B0B0bar_Dsstarp_a0m.dec | 113 + BaBar_2014/B0B0bar_Dsstarp_a2m.dec | 113 + BaBar_2014/B0B0bar_Dsstarpi_DsetaPpi.dec | 60 + BaBar_2014/B0B0bar_Dsstarpi_Dsetapi.dec | 55 + BaBar_2014/B0B0bar_Dsstarpi_Dsgamma_phipi.dec | 64 + BaBar_2014/B0B0bar_Dsstarrho_DsetaPpi.dec | 60 + BaBar_2014/B0B0bar_Dsstarrho_Dsetapi.dec | 55 + BaBar_2014/B0B0bar_Dstar0D0_D0_KpiKpi.dec | 89 + .../B0B0bar_Dstar0D0_D0gD0_K3piK3pi.dec | 166 + BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKpi.dec | 160 + .../B0B0bar_Dstar0D0_D0gD0_K3piKpipi0.dec | 160 + .../B0B0bar_Dstar0D0_D0gD0_K3piKspipi.dec | 171 + BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiK3pi.dec | 160 + BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKpi.dec | 135 + .../B0B0bar_Dstar0D0_D0gD0_KpiKpipi0.dec | 135 + .../B0B0bar_Dstar0D0_D0gD0_KpiKspipi.dec | 146 + .../B0B0bar_Dstar0D0_D0gD0_Kpipi0K3pi.dec | 160 + .../B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpi.dec | 135 + .../B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpipi0.dec | 135 + .../B0B0bar_Dstar0D0_D0gD0_Kpipi0Kspipi.dec | 146 + .../B0B0bar_Dstar0D0_D0gD0_KspipiK3pi.dec | 171 + .../B0B0bar_Dstar0D0_D0gD0_KspipiKpi.dec | 146 + .../B0B0bar_Dstar0D0_D0gD0_KspipiKpipi0.dec | 146 + .../B0B0bar_Dstar0D0_D0gD0_KspipiKspipi.dec | 147 + .../B0B0bar_Dstar0D0_D0pi0D0_K3piK3pi.dec | 166 + .../B0B0bar_Dstar0D0_D0pi0D0_K3piKpi.dec | 160 + .../B0B0bar_Dstar0D0_D0pi0D0_K3piKpipi0.dec | 160 + .../B0B0bar_Dstar0D0_D0pi0D0_K3piKspipi.dec | 171 + .../B0B0bar_Dstar0D0_D0pi0D0_KpiK3pi.dec | 160 + .../B0B0bar_Dstar0D0_D0pi0D0_KpiKpi.dec | 135 + .../B0B0bar_Dstar0D0_D0pi0D0_KpiKpipi0.dec | 135 + .../B0B0bar_Dstar0D0_D0pi0D0_KpiKspipi.dec | 146 + .../B0B0bar_Dstar0D0_D0pi0D0_Kpipi0K3pi.dec | 160 + .../B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpi.dec | 135 + .../B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpipi0.dec | 135 + .../B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kspipi.dec | 146 + .../B0B0bar_Dstar0D0_D0pi0D0_KspipiK3pi.dec | 171 + .../B0B0bar_Dstar0D0_D0pi0D0_KspipiKpi.dec | 146 + .../B0B0bar_Dstar0D0_D0pi0D0_KspipiKpipi0.dec | 146 + .../B0B0bar_Dstar0D0_D0pi0D0_KspipiKspipi.dec | 147 + .../B0B0bar_Dstar0Dstar0_D0gD0g_K3piK3pi.dec | 174 + ...B0B0bar_Dstar0Dstar0_D0gD0g_K3piKspipi.dec | 179 + .../B0B0bar_Dstar0Dstar0_D0gD0g_KpiK3pi.dec | 168 + .../B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpi.dec | 143 + .../B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpipi0.dec | 143 + .../B0B0bar_Dstar0Dstar0_D0gD0g_KpiKspipi.dec | 154 + ...B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0K3pi.dec | 168 + ...B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kpipi0.dec | 143 + ...B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kspipi.dec | 154 + ...B0bar_Dstar0Dstar0_D0gD0g_KspipiKspipi.dec | 155 + ...B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piK3pi.dec | 174 + .../B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpi.dec | 168 + ...B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpipi0.dec | 168 + ...B0bar_Dstar0Dstar0_D0gD0pi0_K3piKspipi.dec | 179 + .../B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiK3pi.dec | 150 + .../B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpi.dec | 143 + ...0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpipi0.dec | 143 + ...0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKspipi.dec | 154 + ...B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0K3pi.dec | 150 + ...0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpi.dec | 143 + ...bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpipi0.dec | 143 + ...bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kspipi.dec | 154 + ...B0bar_Dstar0Dstar0_D0gD0pi0_KspipiK3pi.dec | 161 + ...0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKpi.dec | 154 + ...bar_Dstar0Dstar0_D0gD0pi0_KspipiKpipi0.dec | 154 + ...bar_Dstar0Dstar0_D0gD0pi0_KspipiKspipi.dec | 155 + .../B0B0bar_Dstar0Dstar0_D0pD0p_KpiKpi.dec | 88 + ...B0bar_Dstar0Dstar0_D0pi0D0pi0_K3piK3pi.dec | 174 + ...bar_Dstar0Dstar0_D0pi0D0pi0_K3piKspipi.dec | 179 + ...0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiK3pi.dec | 150 + ...B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpi.dec | 143 + ...0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpipi0.dec | 143 + ...0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKspipi.dec | 154 + ...bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0K3pi.dec | 150 + ...r_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kpipi0.dec | 143 + ...r_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kspipi.dec | 154 + ...r_Dstar0Dstar0_D0pi0D0pi0_KspipiKspipi.dec | 155 + .../B0B0bar_Dstar0Gamma_D0Gamma_KPi.dec | 54 + .../B0B0bar_Dstar0Gamma_D0Gamma_KPiPi.dec | 54 + .../B0B0bar_Dstar0Gamma_D0Gamma_KPiPiPi.dec | 54 + BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPi.dec | 54 + BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPiPi.dec | 54 + .../B0B0bar_Dstar0Gamma_D0Pi_KPiPiPi.dec | 54 + BaBar_2014/B0B0bar_Dstar0K3pi_D0bK3pi_K0S.dec | 195 + BaBar_2014/B0B0bar_Dstar0K3pi_D0bKpi_K0S.dec | 195 + .../B0B0bar_Dstar0K3pi_D0bKpipi0_K0S.dec | 195 + .../B0B0bar_Dstar0K3pi_Dstar0barKpi_K0S.dec | 194 + BaBar_2014/B0B0bar_Dstar0KS.dec | 144 + BaBar_2014/B0B0bar_Dstar0KS_Kpi.dec | 75 + BaBar_2014/B0B0bar_Dstar0Kpi_D0CP.dec | 199 + BaBar_2014/B0B0bar_Dstar0Kpi_D0NonCP.dec | 162 + BaBar_2014/B0B0bar_Dstar0Kpi_D0bK3pi_K0S.dec | 195 + BaBar_2014/B0B0bar_Dstar0Kpi_D0bKpi_K0S.dec | 195 + .../B0B0bar_Dstar0Kpi_D0bKpipi0_K0S.dec | 195 + .../B0B0bar_Dstar0Kpi_Dstar0barKpi_K0S.dec | 194 + .../B0B0bar_Dstar0Kpipi0_D0bK3pi_K0S.dec | 195 + .../B0B0bar_Dstar0Kpipi0_D0bKpi_K0S.dec | 195 + .../B0B0bar_Dstar0Kpipi0_D0bKpipi0_K0S.dec | 195 + .../B0B0bar_Dstar0Kpipi0_Dstar0barKpi_K0S.dec | 194 + BaBar_2014/B0B0bar_Dstar0Kstar0.dec | 134 + .../B0B0bar_Dstar0Kstar0_D0mpipimKK.dec | 81 + BaBar_2014/B0B0bar_Dstar0Kstar0_Kpi.dec | 80 + BaBar_2014/B0B0bar_Dstar0Kstar0_Vub.dec | 140 + BaBar_2014/B0B0bar_Dstar0Pi0.dec | 61 + .../B0B0bar_Dstar0bK3pi_Dstar0K3pi_K0S.dec | 203 + .../B0B0bar_Dstar0bKpi_Dstar0K3pi_K0S.dec | 203 + .../B0B0bar_Dstar0bKpi_Dstar0Kpi_K0S.dec | 203 + .../B0B0bar_Dstar0bKpi_Dstar0Kpipi0_K0S.dec | 203 + .../B0B0bar_Dstar0bKpipi0_Dstar0K3pi_K0S.dec | 203 + ...B0B0bar_Dstar0bKpipi0_Dstar0Kpipi0_K0S.dec | 203 + BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K2pi.dec | 48 + BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K3pi.dec | 48 + BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_Kpi.dec | 48 + .../B0B0bar_Dstar0ppbar_D0pi0_Ks2pi.dec | 64 + BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKKpi.dec | 138 + BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKpipi.dec | 161 + BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKspi.dec | 173 + BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKKpi.dec | 125 + BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKpipi.dec | 136 + BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKspi.dec | 148 + .../B0B0bar_DstarD_D0Dch_Kpipi0KKpi.dec | 125 + .../B0B0bar_DstarD_D0Dch_Kpipi0Kpipi.dec | 136 + .../B0B0bar_DstarD_D0Dch_Kpipi0Kspi.dec | 148 + BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKKpi.dec | 191 + .../B0B0bar_DstarD_D0Dch_Ks3piKpipi.dec | 185 + BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKspi.dec | 185 + .../B0B0bar_DstarD_D0Dch_KspipiKKpi.dec | 128 + .../B0B0bar_DstarD_D0Dch_KspipiKpipi.dec | 147 + .../B0B0bar_DstarD_D0Dch_KspipiKspi.dec | 149 + ...B0bar_DstarD_sch_D0piD_sch_K3piKstar0K.dec | 166 + ...B0B0bar_DstarD_sch_D0piD_sch_K3piphipi.dec | 162 + ...0B0bar_DstarD_sch_D0piD_sch_KpiKstar0K.dec | 141 + .../B0B0bar_DstarD_sch_D0piD_sch_Kpiphipi.dec | 137 + ...bar_DstarD_sch_D0piD_sch_Kpipi0Kstar0K.dec | 141 + ...B0bar_DstarD_sch_D0piD_sch_Kpipi0phipi.dec | 137 + ...bar_DstarD_sch_D0piD_sch_KspipiKstar0K.dec | 152 + ...B0bar_DstarD_sch_D0piD_sch_Kspipiphipi.dec | 148 + .../B0B0bar_DstarD_sch_D0piK0K_K3piKs0K.dec | 172 + .../B0B0bar_DstarD_sch_D0piK0K_KpiKs0K.dec | 147 + .../B0B0bar_DstarD_sch_D0piK0K_Kpipi0Ks0K.dec | 147 + .../B0B0bar_DstarD_sch_D0piK0K_KspipiKs0K.dec | 148 + ...ar_DstarD_sch_Dchpi0D_sch_KpipiKstar0K.dec | 141 + ...0bar_DstarD_sch_Dchpi0D_sch_Kpipiphipi.dec | 137 + ...bar_DstarD_sch_Dchpi0D_sch_KspiKstar0K.dec | 153 + ...B0bar_DstarD_sch_Dchpi0D_sch_Kspiphipi.dec | 149 + ...B0B0bar_DstarD_sch_Dchpi0K0K_KpipiKs0K.dec | 147 + .../B0B0bar_DstarD_sch_Dchpi0K0K_KspiKs0K.dec | 149 + BaBar_2014/B0B0bar_DstarDbarK.dec | 50 + .../B0B0bar_DstarDch_D0piDch_K3piKpipi.dec | 161 + .../B0B0bar_DstarDch_D0piDch_K3piKspi.dec | 173 + .../B0B0bar_DstarDch_D0piDch_KpiKpipi.dec | 136 + .../B0B0bar_DstarDch_D0piDch_KpiKspi.dec | 148 + .../B0B0bar_DstarDch_D0piDch_Kpipi0Kpipi.dec | 136 + .../B0B0bar_DstarDch_D0piDch_Kpipi0Kspi.dec | 148 + .../B0B0bar_DstarDch_D0piDch_KspipiKpipi.dec | 147 + .../B0B0bar_DstarDch_D0piDch_KspipiKspi.dec | 149 + .../B0B0bar_DstarDch_Dchpi0Dch_KpipiKpipi.dec | 136 + .../B0B0bar_DstarDch_Dchpi0Dch_KpipiKspi.dec | 148 + .../B0B0bar_DstarDch_Dchpi0Dch_KspiKpipi.dec | 148 + .../B0B0bar_DstarDch_Dchpi0Dch_KspiKspi.dec | 150 + BaBar_2014/B0B0bar_DstarDs_D0_kpi_phipi.dec | 114 + BaBar_2014/B0B0bar_DstarDs_DstoX.dec | 203 + .../B0B0bar_DstarDstar_D0D0_K3piK3pi.dec | 174 + .../B0B0bar_DstarDstar_D0D0_K3piKs3pi.dec | 223 + .../B0B0bar_DstarDstar_D0D0_KpiK3pi.dec | 168 + BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi.dec | 143 + .../B0B0bar_DstarDstar_D0D0_KpiKpi_001.dec | 92 + .../B0B0bar_DstarDstar_D0D0_KpiKpi_010.dec | 92 + .../B0B0bar_DstarDstar_D0D0_KpiKpi_100.dec | 92 + .../B0B0bar_DstarDstar_D0D0_KpiKpi_111.dec | 92 + ...B0B0bar_DstarDstar_D0D0_KpiKpi_1sqrt21.dec | 92 + .../B0B0bar_DstarDstar_D0D0_KpiKpipi0.dec | 143 + .../B0B0bar_DstarDstar_D0D0_KpiKs3pi.dec | 217 + .../B0B0bar_DstarDstar_D0D0_KpiKspipi.dec | 154 + .../B0B0bar_DstarDstar_D0D0_Kpipi0K3pi.dec | 168 + .../B0B0bar_DstarDstar_D0D0_Kpipi0Kpipi0.dec | 143 + .../B0B0bar_DstarDstar_D0D0_Kpipi0Ks3pi.dec | 217 + .../B0B0bar_DstarDstar_D0D0_Kpipi0Kspipi.dec | 154 + .../B0B0bar_DstarDstar_D0D0_Ks3piKs3pi.dec | 224 + .../B0B0bar_DstarDstar_D0D0_KspipiK3pi.dec | 179 + .../B0B0bar_DstarDstar_D0D0_KspipiKs3pi.dec | 217 + .../B0B0bar_DstarDstar_D0D0_KspipiKspipi.dec | 155 + .../B0B0bar_DstarDstar_D0D0_exclusive.dec | 208 + .../B0B0bar_DstarDstar_D0Dch_K3piKKpi.dec | 151 + .../B0B0bar_DstarDstar_D0Dch_K3piKKpipi0.dec | 220 + .../B0B0bar_DstarDstar_D0Dch_K3piKpipi.dec | 168 + .../B0B0bar_DstarDstar_D0Dch_K3piKs3pi.dec | 222 + .../B0B0bar_DstarDstar_D0Dch_K3piKspi.dec | 180 + .../B0B0bar_DstarDstar_D0Dch_K3piKspipi0.dec | 217 + .../B0B0bar_DstarDstar_D0Dch_KpiKKpi.dec | 122 + .../B0B0bar_DstarDstar_D0Dch_KpiKKpipi0.dec | 214 + .../B0B0bar_DstarDstar_D0Dch_KpiKpipi.dec | 143 + .../B0B0bar_DstarDstar_D0Dch_KpiKpipi_001.dec | 114 + .../B0B0bar_DstarDstar_D0Dch_KpiKpipi_010.dec | 114 + .../B0B0bar_DstarDstar_D0Dch_KpiKpipi_100.dec | 114 + .../B0B0bar_DstarDstar_D0Dch_KpiKpipi_111.dec | 114 + ...0bar_DstarDstar_D0Dch_KpiKpipi_1sqrt21.dec | 114 + .../B0B0bar_DstarDstar_D0Dch_KpiKs3pi.dec | 216 + .../B0B0bar_DstarDstar_D0Dch_KpiKspi.dec | 155 + .../B0B0bar_DstarDstar_D0Dch_KpiKspipi0.dec | 212 + .../B0B0bar_DstarDstar_D0Dch_Kpipi0KKpi.dec | 126 + ...B0B0bar_DstarDstar_D0Dch_Kpipi0KKpipi0.dec | 214 + .../B0B0bar_DstarDstar_D0Dch_Kpipi0Kpipi.dec | 143 + .../B0B0bar_DstarDstar_D0Dch_Kpipi0Ks3pi.dec | 216 + .../B0B0bar_DstarDstar_D0Dch_Kpipi0Kspi.dec | 155 + ...B0B0bar_DstarDstar_D0Dch_Kpipi0Kspipi0.dec | 211 + .../B0B0bar_DstarDstar_D0Dch_Ks3piKKpi.dec | 221 + .../B0B0bar_DstarDstar_D0Dch_Ks3piKKpipi0.dec | 221 + .../B0B0bar_DstarDstar_D0Dch_Ks3piKpipi.dec | 218 + .../B0B0bar_DstarDstar_D0Dch_Ks3piKs3pi.dec | 223 + .../B0B0bar_DstarDstar_D0Dch_Ks3piKspi.dec | 218 + .../B0B0bar_DstarDstar_D0Dch_Ks3piKspipi0.dec | 218 + .../B0B0bar_DstarDstar_D0Dch_KspipiKKpi.dec | 135 + ...B0B0bar_DstarDstar_D0Dch_KspipiKKpipi0.dec | 214 + .../B0B0bar_DstarDstar_D0Dch_KspipiKpipi.dec | 154 + .../B0B0bar_DstarDstar_D0Dch_KspipiKs3pi.dec | 216 + .../B0B0bar_DstarDstar_D0Dch_KspipiKspi.dec | 156 + ...B0B0bar_DstarDstar_D0Dch_KspipiKspipi0.dec | 212 + .../B0B0bar_DstarDstar_D0Dch_exclusive.dec | 206 + .../B0B0bar_DstarDstar_D0piD0pi_K3piK3pi.dec | 174 + ...B0B0bar_DstarDstar_D0piD0pi_K3piKspipi.dec | 179 + .../B0B0bar_DstarDstar_D0piD0pi_KpiK3pi.dec | 168 + .../B0B0bar_DstarDstar_D0piD0pi_KpiKpi.dec | 143 + .../B0B0bar_DstarDstar_D0piD0pi_KpiKpipi0.dec | 143 + .../B0B0bar_DstarDstar_D0piD0pi_KpiKspipi.dec | 154 + ...B0B0bar_DstarDstar_D0piD0pi_Kpipi0K3pi.dec | 168 + ...B0bar_DstarDstar_D0piD0pi_Kpipi0Kpipi0.dec | 143 + ...B0bar_DstarDstar_D0piD0pi_Kpipi0Kspipi.dec | 154 + ...B0bar_DstarDstar_D0piD0pi_KspipiKspipi.dec | 155 + ...0B0bar_DstarDstar_D0piDchpi0_K3piKpipi.dec | 168 + ...B0B0bar_DstarDstar_D0piDchpi0_K3piKspi.dec | 180 + ...B0B0bar_DstarDstar_D0piDchpi0_KpiKpipi.dec | 143 + .../B0B0bar_DstarDstar_D0piDchpi0_KpiKspi.dec | 155 + ...0bar_DstarDstar_D0piDchpi0_Kpipi0Kpipi.dec | 143 + ...B0bar_DstarDstar_D0piDchpi0_Kpipi0Kspi.dec | 155 + ...0bar_DstarDstar_D0piDchpi0_KspipiKpipi.dec | 154 + ...B0bar_DstarDstar_D0piDchpi0_KspipiKspi.dec | 156 + ...bar_DstarDstar_Dchpi0Dchpi0_KpipiKpipi.dec | 143 + ...0bar_DstarDstar_Dchpi0Dchpi0_KpipiKspi.dec | 155 + ...B0bar_DstarDstar_Dchpi0Dchpi0_KspiKspi.dec | 157 + BaBar_2014/B0B0bar_DstarDstar_long_DpmPi0.dec | 61 + .../B0B0bar_DstarDstar_trans_DpmPi0.dec | 61 + BaBar_2014/B0B0bar_DstarK2pi_D0K3pi_K.dec | 203 + BaBar_2014/B0B0bar_DstarK2pi_D0Kpi_K.dec | 203 + BaBar_2014/B0B0bar_DstarK2pi_D0Kpipi0_K.dec | 203 + BaBar_2014/B0B0bar_DstarK2pi_DchK2pi_K0S.dec | 203 + BaBar_2014/B0B0bar_DstarK2pi_Dstar0K3pi_K.dec | 203 + BaBar_2014/B0B0bar_DstarK2pi_Dstar0Kpi_K.dec | 203 + .../B0B0bar_DstarK2pi_Dstar0Kpipi0_K.dec | 203 + BaBar_2014/B0B0bar_DstarK3pi_D0K3pi_K.dec | 195 + BaBar_2014/B0B0bar_DstarK3pi_D0Kpi_K.dec | 195 + BaBar_2014/B0B0bar_DstarK3pi_D0Kpipi0_K.dec | 195 + BaBar_2014/B0B0bar_DstarK3pi_DchK2pi_K0S.dec | 195 + BaBar_2014/B0B0bar_DstarK3pi_Dstar0K3pi_K.dec | 203 + BaBar_2014/B0B0bar_DstarK3pi_Dstar0Kpi_K.dec | 203 + .../B0B0bar_DstarK3pi_Dstar0Kpipi0_K.dec | 203 + .../B0B0bar_DstarK_DstarmD0pi_D0mK3pi.dec | 45 + .../B0B0bar_DstarK_DstarmD0pi_D0mKK.dec | 45 + .../B0B0bar_DstarK_DstarmD0pi_D0mKpi.dec | 45 + .../B0B0bar_DstarK_DstarmD0pi_D0mKpipi0.dec | 44 + .../B0B0bar_DstarK_DstarmD0pi_D0mpipi.dec | 45 + BaBar_2014/B0B0bar_DstarKpi_D0K3pi_K.dec | 195 + BaBar_2014/B0B0bar_DstarKpi_D0Kpi_K.dec | 195 + BaBar_2014/B0B0bar_DstarKpi_D0Kpipi0_K.dec | 195 + BaBar_2014/B0B0bar_DstarKpi_DchK2pi_K0S.dec | 195 + BaBar_2014/B0B0bar_DstarKpi_Dstar0K3pi_K.dec | 203 + BaBar_2014/B0B0bar_DstarKpi_Dstar0Kpi_K.dec | 203 + .../B0B0bar_DstarKpi_Dstar0Kpipi0_K.dec | 203 + BaBar_2014/B0B0bar_DstarKpipi0_D0K3pi_K.dec | 195 + BaBar_2014/B0B0bar_DstarKpipi0_D0Kpi_K.dec | 195 + BaBar_2014/B0B0bar_DstarKpipi0_D0Kpipi0_K.dec | 195 + .../B0B0bar_DstarKpipi0_DchK2pi_K0S.dec | 195 + .../B0B0bar_DstarKpipi0_Dstar0K3pi_K.dec | 203 + .../B0B0bar_DstarKpipi0_Dstar0Kpi_K.dec | 203 + .../B0B0bar_DstarKpipi0_Dstar0Kpipi0_K.dec | 203 + BaBar_2014/B0B0bar_DstarKsPi.dec | 168 + BaBar_2014/B0B0bar_DstarKstar.dec | 70 + BaBar_2014/B0B0bar_DstarKstar_DrhoHELAMP.dec | 150 + BaBar_2014/B0B0bar_DstarRho_sin2bg.dec | 135 + BaBar_2014/B0B0bar_DstarX_DstarD0pi_D0Kpi.dec | 57 + .../B0B0bar_DstarX_DstarD0pi_D0Kpimix.dec | 126 + BaBar_2014/B0B0bar_Dstar_3pi.dec | 35 + BaBar_2014/B0B0bar_Dstar_3pi_pi0.dec | 134 + .../B0B0bar_Dstar_Dsstar_recomodes_X.dec | 128 + .../B0B0bar_Dstar_Dsstar_recomodes_phipi.dec | 140 + .../B0B0bar_Dstar_Dstar_recomodes_X.dec | 121 + ...Dstar_Dstar_recomodes_Xms2b00mVV100A_0.dec | 119 + ...star_Dstar_recomodes_Xms2b00mVV100Long.dec | 119 + ...tar_Dstar_recomodes_Xms2b00mVV100Trans.dec | 119 + ...ar_Dstar_Dstar_recomodes_Xms2b00mVVnom.dec | 124 + ...ar_Dstar_Dstar_recomodes_Xms2b03mVVnom.dec | 124 + ...ar_Dstar_Dstar_recomodes_Xms2b07mVVnom.dec | 121 + ...r_Dstar_recomodes_Xms2bNommVV100CPeven.dec | 121 + ...ar_Dstar_recomodes_Xms2bNommVV100CPodd.dec | 121 + ..._Dstar_Dstar_recomodes_Xms2bNommVVFlat.dec | 121 + ...r_Dstar_Dstar_recomodes_Xms2bNommVVnom.dec | 121 + ...r_Dstar_Dstar_recomodes_Xms2bm04mVVnom.dec | 124 + ...r_Dstar_Dstar_recomodes_Xms2bm07mVVnom.dec | 124 + BaBar_2014/B0B0bar_Dstar_omega_pi.dec | 139 + .../B0B0bar_Dstar_omega_pi_D0ToChrgK.dec | 122 + ...0B0bar_Dstarenubar_DstarmD0pi_D0mKspi0.dec | 55 + .../B0B0bar_Dstarenubar_DstarmDpi0_DmKspi.dec | 55 + BaBar_2014/B0B0bar_DstarmKsPip_D0Kpi.dec | 60 + BaBar_2014/B0B0bar_DstarmKspip_K3pi.dec | 67 + BaBar_2014/B0B0bar_DstarmKspip_Kpi.dec | 66 + BaBar_2014/B0B0bar_Dstarma0p.dec | 143 + .../B0B0bar_DstarminusK3pi_D0K3pi_Kplus.dec | 197 + .../B0B0bar_DstarminusK3pi_D0Kpi_Kplus.dec | 198 + .../B0B0bar_DstarminusK3pi_D0Kpipi0_Kplus.dec | 197 + .../B0B0bar_DstarminusK3pi_DplusK2pi_K0S.dec | 196 + .../B0B0bar_DstarminusK3pi_Ds1Dstar0K_Kpi.dec | 219 + ...bar_DstarminusK3pi_Ds1_2536Dstar0K_Kpi.dec | 219 + .../B0B0bar_DstarminusK3pi_DssDstar0K_Kpi.dec | 219 + ...B0B0bar_DstarminusK3pi_Dstar0Kpi_Kplus.dec | 196 + ...B0bar_DstarminusK3pi_DstarplusK2pi_K0S.dec | 203 + ...B0bar_DstarminusK3pi_DstarplusK3pi_K0S.dec | 195 + ...0B0bar_DstarminusK3pi_DstarplusKpi_K0S.dec | 195 + ...bar_DstarminusK3pi_DstarplusKpipi0_K0S.dec | 195 + .../B0B0bar_DstarminusKpi_D0K3pi_Kplus.dec | 197 + .../B0B0bar_DstarminusKpi_D0Kpi_Kplus.dec | 197 + .../B0B0bar_DstarminusKpi_D0Kpipi0_Kplus.dec | 197 + .../B0B0bar_DstarminusKpi_DplusK2pi_K0S.dec | 196 + .../B0B0bar_DstarminusKpi_Ds1Dstar0K_K3pi.dec | 219 + .../B0B0bar_DstarminusKpi_Ds1Dstar0K_Kpi.dec | 219 + ...0B0bar_DstarminusKpi_Ds1Dstar0K_Kpipi0.dec | 219 + ...bar_DstarminusKpi_Ds1_2536Dstar0K_K3pi.dec | 219 + ...0bar_DstarminusKpi_Ds1_2536Dstar0K_Kpi.dec | 219 + ...r_DstarminusKpi_Ds1_2536Dstar0K_Kpipi0.dec | 219 + .../B0B0bar_DstarminusKpi_DssDstar0K_K3pi.dec | 219 + .../B0B0bar_DstarminusKpi_DssDstar0K_Kpi.dec | 219 + ...0B0bar_DstarminusKpi_DssDstar0K_Kpipi0.dec | 219 + .../B0B0bar_DstarminusKpi_Dstar0Kpi_Kplus.dec | 195 + ...0B0bar_DstarminusKpi_DstarplusK2pi_K0S.dec | 203 + ...B0B0bar_DstarminusKpi_DstarplusKpi_K0S.dec | 195 + .../B0B0bar_DstarminusKpipi0_D0K3pi_Kplus.dec | 197 + .../B0B0bar_DstarminusKpipi0_D0Kpi_Kplus.dec | 198 + ...0B0bar_DstarminusKpipi0_D0Kpipi0_Kplus.dec | 197 + ...B0B0bar_DstarminusKpipi0_DplusK2pi_K0S.dec | 196 + ...0B0bar_DstarminusKpipi0_Ds1Dstar0K_Kpi.dec | 219 + ...r_DstarminusKpipi0_Ds1_2536Dstar0K_Kpi.dec | 219 + ...0B0bar_DstarminusKpipi0_DssDstar0K_Kpi.dec | 219 + ...B0bar_DstarminusKpipi0_Dstar0Kpi_Kplus.dec | 196 + ...bar_DstarminusKpipi0_DstarplusK2pi_K0S.dec | 203 + ...0bar_DstarminusKpipi0_DstarplusKpi_K0S.dec | 196 + ...r_DstarminusKpipi0_DstarplusKpipi0_K0S.dec | 195 + ...starminusppbarpiplus_D0barpiminus_K2pi.dec | 49 + ...starminusppbarpiplus_D0barpiminus_K3pi.dec | 49 + ...Dstarminusppbarpiplus_D0barpiminus_Kpi.dec | 49 + ...usppbarpiplus_D0barpiminus_KpiK2piK3pi.dec | 57 + ...tarminusppbarpiplus_D0barpiminus_Ks2pi.dec | 64 + BaBar_2014/B0B0bar_Dstarmlpnu_cpv.dec | 52 + BaBar_2014/B0B0bar_DstarmpimD0pimmK4pi.dec | 43 + ...0B0bar_Dstarmunubar_DstarmD0pi_DmKspi0.dec | 55 + ...B0B0bar_Dstarmunubar_DstarmDpi0_DmKspi.dec | 55 + .../B0B0bar_DstarpDm_DstarD0pi_DK2pi.dec | 67 + .../B0B0bar_DstarpDsm_DstarD0pi_D0Kpi.dec | 54 + .../B0B0bar_DstarpDsm_DstarD0pi_DsKpimix.dec | 105 + .../B0B0bar_DstarpDsstarm_DstarD0pi_D0Kpi.dec | 54 + .../B0B0bar_DstarpDsstarm_DstarD0pi_DK2pi.dec | 60 + ...B0bar_DstarpDsstarm_DstarD0pi_DsKpimix.dec | 113 + ..._DstarpDsstarm_DstarD0pi_DsKpimix_long.dec | 113 + ...starpDsstarm_DstarD0pi_DsKpimix_transv.dec | 113 + ...DstarpDsstarm_DstarD0pi_DsToPhiPi_long.dec | 77 + ...tarpDsstarm_DstarD0pi_DsToPhiPi_transv.dec | 77 + .../B0B0bar_DstarpDsstarm_d0kpi_Xmunu_lg.dec | 53 + .../B0B0bar_DstarpDsstarm_d0kpi_Xmunu_tr.dec | 53 + .../B0B0bar_DstarpDsstarm_d0kpi_munu_lg.dec | 49 + .../B0B0bar_DstarpDsstarm_d0kpi_munu_tr.dec | 49 + .../B0B0bar_DstarpDsstarm_d0kpi_phipi_lg.dec | 55 + .../B0B0bar_DstarpDsstarm_d0kpi_phipi_tr.dec | 55 + .../B0B0bar_DstarpDsstarm_d0kpi_taunu_lg.dec | 47 + .../B0B0bar_DstarpDsstarm_d0kpi_taunu_tr.dec | 47 + BaBar_2014/B0B0bar_Dstarpa1m_DstarD0pi.dec | 41 + ...B0bar_Dstarpa1m_DstarD0pimfixedmcharge.dec | 41 + .../B0B0bar_Dstarpi_DstarmD0pi_D0mK3pi.dec | 45 + .../B0B0bar_Dstarpi_DstarmD0pi_D0mKK.dec | 45 + .../B0B0bar_Dstarpi_DstarmD0pi_D0mKpi.dec | 45 + .../B0B0bar_Dstarpi_DstarmD0pi_D0mKpipi0.dec | 44 + .../B0B0bar_Dstarpi_DstarmD0pi_D0mpipi.dec | 45 + BaBar_2014/B0B0bar_Dstarpilnu_KPi.dec | 55 + BaBar_2014/B0B0bar_Dstarpipi0_nonres.dec | 38 + BaBar_2014/B0B0bar_Dstarpkm_DstarD0pi.dec | 43 + BaBar_2014/B0B0bar_Dstarpkstarm_DstarD0pi.dec | 59 + .../B0B0bar_DstarpmD0mmKpimmpimpi_Xclnu.dec | 108 + .../B0B0bar_DstarpmD0mmKpimmpimpi_Xulnu.dec | 139 + BaBar_2014/B0B0bar_DstarppimD0pipmK4pi.dec | 50 + BaBar_2014/B0B0bar_Dstarppim_DstarD0pi.dec | 43 + .../B0B0bar_Dstarppim_DstarD0pi_DmKspi0.dec | 53 + .../B0B0bar_Dstarppim_DstarD0pi_cpv.dec | 23 + .../B0B0bar_Dstarppim_DstarD0pi_cpvB.dec | 23 + BaBar_2014/B0B0bar_Dstarppim_DstarDpi0.dec | 43 + .../B0B0bar_Dstarppim_DstarDpi0_DmKspi.dec | 53 + .../B0B0bar_Dstarppim_DstarDpi0_cpv.dec | 23 + BaBar_2014/B0B0bar_Dstarprhom_DstarD0pi.dec | 43 + .../B0B0bar_Dstarprhom_DstarD0pi_DmKspi0.dec | 53 + ...0B0bar_Dstarprhom_DstarD0pimSVV_HELAMP.dec | 45 + ...ar_Dstarprhom_DstarD0pimSVV_HELAMPmfix.dec | 47 + ...ar_Dstarprhom_DstarD0pimSVV_NONCPEIGEN.dec | 43 + BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0.dec | 43 + .../B0B0bar_Dstarprhom_DstarDpi0_DmKspi.dec | 53 + ...0B0bar_Dstarprhom_DstarDpi0mSVV_HELAMP.dec | 43 + BaBar_2014/B0B0bar_Dstarstarlnu.dec | 153 + BaBar_2014/B0B0bar_DstplusK.dec | 64 + BaBar_2014/B0B0bar_Dstr0pipluslnu_D0Kpi.dec | 82 + BaBar_2014/B0B0bar_Dstrlnu.dec | 108 + BaBar_2014/B0B0bar_Dstrlnu_KPi.dec | 57 + BaBar_2014/B0B0bar_Dstrlnu_Kpipi.dec | 58 + BaBar_2014/B0B0bar_Dstrlnu_Kpipipi.dec | 58 + BaBar_2014/B0B0bar_Dstrlnu_Kspipi.dec | 71 + .../B0B0bar_Dstrlnu_altHQETparamsR1high.dec | 80 + .../B0B0bar_Dstrlnu_altHQETparamsR1low.dec | 80 + .../B0B0bar_Dstrlnu_altHQETparamsR2high.dec | 80 + .../B0B0bar_Dstrlnu_altHQETparamsR2low.dec | 80 + ...B0B0bar_Dstrlnu_altHQETparamsRhosqhigh.dec | 80 + .../B0B0bar_Dstrlnu_altHQETparamsRhosqlow.dec | 80 + BaBar_2014/B0B0bar_Dstrlnu_genericD0.dec | 42 + BaBar_2014/B0B0bar_Dstrlnu_phspOnly.dec | 110 + BaBar_2014/B0B0bar_EtacKS_pm.dec | 54 + BaBar_2014/B0B0bar_FSR_epem.dec | 31 + BaBar_2014/B0B0bar_FSR_epmum.dec | 31 + BaBar_2014/B0B0bar_FSR_eptaum.dec | 31 + BaBar_2014/B0B0bar_FSR_mupmum.dec | 31 + BaBar_2014/B0B0bar_FSR_muptaum.dec | 31 + BaBar_2014/B0B0bar_FSR_tauptaum.dec | 31 + BaBar_2014/B0B0bar_HHHHP.dec | 48 + BaBar_2014/B0B0bar_HHPPP.dec | 36 + BaBar_2014/B0B0bar_Inclusivetap.dec | 30 + BaBar_2014/B0B0bar_JPsiKs_AllJpsi.dec | 40 + BaBar_2014/B0B0bar_JpsiD0.dec | 34 + BaBar_2014/B0B0bar_JpsiD0_Kpi.dec | 51 + BaBar_2014/B0B0bar_JpsiDpi.dec | 37 + BaBar_2014/B0B0bar_JpsiDpiMod.dec | 39 + BaBar_2014/B0B0bar_JpsiDstar.dec | 37 + BaBar_2014/B0B0bar_JpsiEta.dec | 42 + BaBar_2014/B0B0bar_JpsiEtaKs.dec | 48 + BaBar_2014/B0B0bar_JpsiEtaP.dec | 44 + BaBar_2014/B0B0bar_JpsiEtaPKs.dec | 56 + BaBar_2014/B0B0bar_JpsiEta_2.dec | 43 + BaBar_2014/B0B0bar_JpsiEtap.dec | 44 + BaBar_2014/B0B0bar_JpsiKL.dec | 39 + .../B0B0bar_JpsiKL_dgog=0.2_qop=1.04_z=0.dec | 47 + .../B0B0bar_JpsiKL_dgog=0.4_qop=1.08_z=0.dec | 47 + BaBar_2014/B0B0bar_JpsiKS_00.dec | 43 + ...0B0bar_JpsiKS_00_dgog=0.2_qop=1.04_z=0.dec | 53 + ...0B0bar_JpsiKS_00_dgog=0.4_qop=1.08_z=0.dec | 53 + BaBar_2014/B0B0bar_JpsiKS_direct_0803.dec | 46 + BaBar_2014/B0B0bar_JpsiKS_direct_0807.dec | 44 + BaBar_2014/B0B0bar_JpsiKS_direct_1203.dec | 46 + BaBar_2014/B0B0bar_JpsiKS_direct_1207.dec | 44 + BaBar_2014/B0B0bar_JpsiKS_pm.dec | 46 + BaBar_2014/B0B0bar_JpsiKS_pm_0.1.dec | 48 + BaBar_2014/B0B0bar_JpsiKS_pm_0.3.dec | 48 + BaBar_2014/B0B0bar_JpsiKS_pm_0.5.dec | 49 + BaBar_2014/B0B0bar_JpsiKS_pm_0.9.dec | 48 + ...0B0bar_JpsiKS_pm_dgog=0.2_qop=1.04_z=0.dec | 52 + ...0B0bar_JpsiKS_pm_dgog=0.4_qop=1.08_z=0.dec | 52 + BaBar_2014/B0B0bar_JpsiKS_ppbar.dec | 43 + BaBar_2014/B0B0bar_JpsiKstar_00_sp3.dec | 68 + .../B0B0bar_JpsiKstar_00_sp3_RunIPol.dec | 69 + BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3.dec | 66 + .../B0B0bar_JpsiKstar_KLpi_sp3_865c.dec | 66 + .../B0B0bar_JpsiKstar_KLpi_sp3_RunIPol.dec | 66 + .../B0B0bar_JpsiKstar_KpPim_RunIpIIPol.dec | 62 + .../B0B0bar_JpsiKstar_KsPi0_RunIpIIPol.dec | 76 + BaBar_2014/B0B0bar_JpsiKstar_RunIPol.dec | 69 + BaBar_2014/B0B0bar_JpsiKstar_chgd_RunIPol.dec | 64 + ...r_JpsiKstar_chgd_dgog=0.2_qop=1.04_z=0.dec | 68 + ...r_JpsiKstar_chgd_dgog=0.4_qop=1.08_z=0.dec | 68 + BaBar_2014/B0B0bar_JpsiKstar_chgd_sp3.dec | 69 + BaBar_2014/B0B0bar_JpsiKstar_ppbar_chgd.dec | 66 + BaBar_2014/B0B0bar_JpsiKstar_sp3.dec | 69 + BaBar_2014/B0B0bar_JpsiOmega.dec | 53 + BaBar_2014/B0B0bar_JpsiPhi.dec | 44 + BaBar_2014/B0B0bar_JpsiPhiKs.dec | 41 + BaBar_2014/B0B0bar_JpsiPhi_LongPolar.dec | 43 + BaBar_2014/B0B0bar_JpsiPhi_TransPolar.dec | 43 + BaBar_2014/B0B0bar_JpsiPi0.dec | 38 + BaBar_2014/B0B0bar_JpsiPi0_0.0.dec | 38 + BaBar_2014/B0B0bar_JpsiPi0_0.35.dec | 38 + BaBar_2014/B0B0bar_JpsiPi0_0.4_costerm.dec | 39 + BaBar_2014/B0B0bar_JpsiPi0_0.7_costerm.dec | 38 + BaBar_2014/B0B0bar_JpsiPi0_0.8_costerm.dec | 39 + BaBar_2014/B0B0bar_JpsiPi0_m0.35.dec | 39 + BaBar_2014/B0B0bar_JpsiPi0_m0.3_costerm.dec | 39 + BaBar_2014/B0B0bar_JpsiPi0_m0.7.dec | 38 + BaBar_2014/B0B0bar_JpsiPi0_m0.8_costerm.dec | 39 + BaBar_2014/B0B0bar_JpsiPiPi_nonres.dec | 78 + BaBar_2014/B0B0bar_JpsiRho0.dec | 93 + BaBar_2014/B0B0bar_JpsiRho0_0polarisation.dec | 88 + .../B0B0bar_JpsiRho0_Kstarpolarisation.dec | 88 + BaBar_2014/B0B0bar_JpsiX_EtaCG_modes.dec | 54 + BaBar_2014/B0B0bar_Jpsigamma.dec | 42 + BaBar_2014/B0B0bar_Jpsim3pimnoint_KS_pm.dec | 45 + BaBar_2014/B0B0bar_Jpsim5pimnoint_KS_pm.dec | 95 + BaBar_2014/B0B0bar_Jpsim7pimnoint_KS_pm.dec | 52 + BaBar_2014/B0B0bar_JpsipBaryon.dec | 42 + BaBar_2014/B0B0bar_JpsipSigma.dec | 41 + BaBar_2014/B0B0bar_Jpsippbar.dec | 33 + BaBar_2014/B0B0bar_K0Lf2.dec | 41 + BaBar_2014/B0B0bar_K0lrho0_rho02pi.dec | 38 + BaBar_2014/B0B0bar_K0nunu.dec | 50 + BaBar_2014/B0B0bar_K0s2pi0.dec | 30 + BaBar_2014/B0B0bar_K0sK0sK0s.dec | 29 + BaBar_2014/B0B0bar_K0sf2.dec | 41 + BaBar_2014/B0B0bar_K0sphi_phiKK.dec | 38 + BaBar_2014/B0B0bar_K0srho0_rho02pi.dec | 38 + BaBar_2014/B0B0bar_K2pi_CP.dec | 35 + BaBar_2014/B0B0bar_KK.dec | 26 + BaBar_2014/B0B0bar_KLpi0_kltopi0pi0.dec | 42 + BaBar_2014/B0B0bar_KSKS.dec | 36 + BaBar_2014/B0B0bar_KSeta_etaDalitz.dec | 37 + BaBar_2014/B0B0bar_KSetac_pppm.dec | 41 + BaBar_2014/B0B0bar_KSpi0.dec | 40 + BaBar_2014/B0B0bar_KSpi0_2beta.dec | 27 + BaBar_2014/B0B0bar_KSpi0_C=m0.6_S=0.58.dec | 28 + BaBar_2014/B0B0bar_KSpi0_alpha.dec | 27 + BaBar_2014/B0B0bar_KSpi0_kstopi0pi0.dec | 36 + BaBar_2014/B0B0bar_KSpi0_pi0Dalitz.dec | 37 + BaBar_2014/B0B0bar_Keta1295_KKpipl.dec | 49 + BaBar_2014/B0B0bar_Keta1295_KKpizr.dec | 48 + BaBar_2014/B0B0bar_Keta1295_etapipi.dec | 53 + BaBar_2014/B0B0bar_Kf1285_KKpipl.dec | 47 + BaBar_2014/B0B0bar_Kf1285_KKpizr.dec | 46 + BaBar_2014/B0B0bar_Kf1285_etapipi.dec | 51 + BaBar_2014/B0B0bar_Kf1525_K0K0.dec | 46 + BaBar_2014/B0B0bar_Kf1525_KpKm.dec | 46 + BaBar_2014/B0B0bar_KmKstarp_KstarpK0spi.dec | 44 + BaBar_2014/B0B0bar_KmKstarp_KstarpKpi0.dec | 44 + BaBar_2014/B0B0bar_KmpipK0.dec | 30 + BaBar_2014/B0B0bar_KpKmKstar_KSpi0.dec | 50 + BaBar_2014/B0B0bar_KpKmKstar_Kppim.dec | 45 + BaBar_2014/B0B0bar_KpKstarm_KstarmK0spi.dec | 44 + BaBar_2014/B0B0bar_KpKstarm_KstarmKpi0.dec | 44 + BaBar_2014/B0B0bar_Kpi.dec | 26 + BaBar_2014/B0B0bar_KpiK0.dec | 31 + BaBar_2014/B0B0bar_Kpipi0.dec | 30 + BaBar_2014/B0B0bar_Kpipi0pi0.dec | 30 + BaBar_2014/B0B0bar_Krho.dec | 40 + BaBar_2014/B0B0bar_Ksll.dec | 42 + BaBar_2014/B0B0bar_Ksnunubar.dec | 40 + BaBar_2014/B0B0bar_Ksrho0_CP.dec | 33 + BaBar_2014/B0B0bar_Kst0Kst0Pi0_KPi_KPi.dec | 45 + BaBar_2014/B0B0bar_Kst0KstH_KPi_KPi0.dec | 66 + BaBar_2014/B0B0bar_Kst0Rho0Pi0_KPi.dec | 41 + BaBar_2014/B0B0bar_Kst0RhoH_KPi.dec | 55 + BaBar_2014/B0B0bar_Kst0RhomPip_KPi.dec | 40 + BaBar_2014/B0B0bar_Kst0RhopPim_KPi.dec | 41 + BaBar_2014/B0B0bar_Kst2_1430_Jpsi_ee.dec | 45 + BaBar_2014/B0B0bar_Kst2_1430_Jpsi_mumu.dec | 45 + BaBar_2014/B0B0bar_KstKstPi0_KPi0_KPi0.dec | 41 + BaBar_2014/B0B0bar_KstRho0H_KPi0.dec | 47 + BaBar_2014/B0B0bar_KstRhoPi0_KPi0.dec | 43 + BaBar_2014/B0B0bar_Kst_1273_gamma2.dec | 30 + BaBar_2014/B0B0bar_Kst_1402_gamma.dec | 26 + BaBar_2014/B0B0bar_Kst_1430_gamma.dec | 26 + BaBar_2014/B0B0bar_Kstar0K0s_Kstar0K0spi0.dec | 43 + BaBar_2014/B0B0bar_Kstar0K0s_Kstar0Kpi.dec | 43 + BaBar_2014/B0B0bar_Kstar0eta_etaDalitz.dec | 42 + BaBar_2014/B0B0bar_Kstar0ll.dec | 41 + BaBar_2014/B0B0bar_Kstar0nunu.dec | 39 + BaBar_2014/B0B0bar_Kstar0nunu_Kpi.dec | 44 + ...bar_Kstar0p1430pim_Kstar0p1430toK0spip.dec | 36 + BaBar_2014/B0B0bar_Kstar0pi0_Kstar0K0spi0.dec | 43 + BaBar_2014/B0B0bar_Kstar0pi0_pi0Dalitz.dec | 42 + ...B0bar_Kstar1410ppim_Kstar1410ptoK0spip.dec | 36 + ...B0bar_Kstar1680ppim_Kstar1680ptoK0spip.dec | 36 + ...bar_Kstar2p1430pim_Kstar2p1430toK0spip.dec | 36 + BaBar_2014/B0B0bar_KstarK_1270.dec | 45 + BaBar_2014/B0B0bar_Kstar_1410_gamma.dec | 27 + BaBar_2014/B0B0bar_Kstar_1680_gamma.dec | 27 + BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0.dec | 67 + .../B0B0bar_Kstar_K0pipKstar_Kmpi0_ln.dec | 71 + .../B0B0bar_Kstar_K0pipKstar_Kmpi0_tr.dec | 71 + BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0.dec | 50 + .../B0B0bar_Kstar_Kppi0Kstar_Kmpi0_ln.dec | 54 + .../B0B0bar_Kstar_Kppi0Kstar_Kmpi0_tr.dec | 54 + BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim.dec | 50 + .../B0B0bar_Kstar_KppimKstar_Kppim_ln.dec | 54 + .../B0B0bar_Kstar_KppimKstar_Kppim_tr.dec | 54 + BaBar_2014/B0B0bar_Kstarf0_KSpi0.dec | 78 + BaBar_2014/B0B0bar_Kstarf0_KSpi0KpKm.dec | 62 + BaBar_2014/B0B0bar_Kstarf0_Kppim.dec | 62 + BaBar_2014/B0B0bar_Kstarf0_KppimKpKm.dec | 56 + BaBar_2014/B0B0bar_Kstarf0_KppimKsKs.dec | 55 + BaBar_2014/B0B0bar_Kstargamma.dec | 28 + BaBar_2014/B0B0bar_Kstargamma_AL_eq_AR.dec | 44 + BaBar_2014/B0B0bar_Kstargamma_Kpi.dec | 43 + BaBar_2014/B0B0bar_Kstargamma_Kspi0.dec | 59 + BaBar_2014/B0B0bar_Kstargamma_SM.dec | 44 + BaBar_2014/B0B0bar_KstarpKmKs.dec | 44 + BaBar_2014/B0B0bar_Kstarpi0.dec | 44 + BaBar_2014/B0B0bar_Kstarpi_1270.dec | 36 + BaBar_2014/B0B0bar_Kstarpi_1400.dec | 36 + BaBar_2014/B0B0bar_Kstarpi_1430_spin0.dec | 36 + .../B0B0bar_Kstarpi_1430_spin0_excl.dec | 58 + BaBar_2014/B0B0bar_Kstarpi_1430_spin2.dec | 36 + .../B0B0bar_Kstarpi_1430_spin2_excl.dec | 59 + BaBar_2014/B0B0bar_Kstarpi_1680.dec | 36 + BaBar_2014/B0B0bar_Kstarpi_1680_excl.dec | 59 + BaBar_2014/B0B0bar_Kstarpi_2.dec | 44 + BaBar_2014/B0B0bar_Kstarpi_KstarK0Lpi.dec | 45 + BaBar_2014/B0B0bar_Kstarpi_KstarK0pi.dec | 45 + BaBar_2014/B0B0bar_Kstarppimpi0.dec | 40 + BaBar_2014/B0B0bar_Kstarrho_1680_Kpi_ln.dec | 68 + BaBar_2014/B0B0bar_Kstchi_c0_pipi.dec | 47 + BaBar_2014/B0B0bar_Kstgamma.dec | 63 + BaBar_2014/B0B0bar_KstpRhom_KPi_ln.dec | 40 + BaBar_2014/B0B0bar_KstpRhom_KPi_tr.dec | 39 + BaBar_2014/B0B0bar_OmegaPiPi_PiPiPi0.dec | 35 + BaBar_2014/B0B0bar_Pi0nunu.dec | 43 + BaBar_2014/B0B0bar_Psi2SKs2Pi0.dec | 53 + BaBar_2014/B0B0bar_Psi2sKL.dec | 54 + .../B0B0bar_Psi2sKL_Psi2stoJpsiPi0Pi0.dec | 45 + BaBar_2014/B0B0bar_Psi2sKS.dec | 56 + BaBar_2014/B0B0bar_Psi2sKS_00.dec | 56 + .../B0B0bar_Psi2sKS_00_Psi2stoJpsiPi0Pi0.dec | 51 + BaBar_2014/B0B0bar_Psi2sKS_Psi2stoJpsiEta.dec | 51 + .../B0B0bar_Psi2sKS_Psi2stoJpsiPi0Pi0.dec | 50 + .../B0B0bar_Psi2sKS_dgog=0.2_qop=1.04_z=0.dec | 65 + .../B0B0bar_Psi2sKS_dgog=0.4_qop=1.08_z=0.dec | 65 + BaBar_2014/B0B0bar_Psi2sKs_All.dec | 39 + .../B0B0bar_Psi2sKstar_KpPim_RunIpIIPol.dec | 67 + .../B0B0bar_Psi2sKstar_KsPi0_RunIpIIPol.dec | 74 + BaBar_2014/B0B0bar_Psi2sKstar_chgd.dec | 76 + BaBar_2014/B0B0bar_Psi2sKstar_sp3.dec | 70 + BaBar_2014/B0B0bar_Psi3770D0D0KpiK3pi_K.dec | 131 + BaBar_2014/B0B0bar_Psi3770D0D0KpiKpi_K.dec | 131 + BaBar_2014/B0B0bar_Psi3770D0D0KpiKpipi0_K.dec | 131 + BaBar_2014/B0B0bar_Psi3770DpDm_K.dec | 135 + BaBar_2014/B0B0bar_Rho0Rho0Pi0.dec | 29 + BaBar_2014/B0B0bar_Rho0f0.dec | 44 + BaBar_2014/B0B0bar_RhoRho0K.dec | 31 + BaBar_2014/B0B0bar_RhomRho0pip.dec | 26 + BaBar_2014/B0B0bar_RhopRho0pim.dec | 27 + BaBar_2014/B0B0bar_V0PPP.dec | 73 + BaBar_2014/B0B0bar_VpPPP.dec | 111 + BaBar_2014/B0B0bar_XddgammaExp480.dec | 76 + BaBar_2014/B0B0bar_Xenu_Yenu.dec | 163 + BaBar_2014/B0B0bar_Xenu_Yenu_new.dec | 86 + BaBar_2014/B0B0bar_Xenu_Ymunu.dec | 164 + BaBar_2014/B0B0bar_Xenu_Ymunu_new.dec | 83 + BaBar_2014/B0B0bar_Xenu_noSLemu.dec | 645 ++ BaBar_2014/B0B0bar_XipXim.dec | 51 + BaBar_2014/B0B0bar_Xmunu_Ymunu.dec | 163 + BaBar_2014/B0B0bar_Xmunu_Ymunu_new.dec | 87 + BaBar_2014/B0B0bar_Xmunu_noSLemu.dec | 645 ++ BaBar_2014/B0B0bar_Xsdgamma.dec | 59 + BaBar_2014/B0B0bar_XsdgammaAli.dec | 59 + BaBar_2014/B0B0bar_XsdgammaExp465.dec | 59 + BaBar_2014/B0B0bar_XsdgammaExp470.dec | 59 + BaBar_2014/B0B0bar_XsdgammaExp475.dec | 59 + BaBar_2014/B0B0bar_XsdgammaExp480.dec | 59 + .../B0B0bar_XsdgammaExp480MH_1.0to1.2.dec | 59 + .../B0B0bar_XsdgammaExp480MH_1.2to1.4.dec | 59 + .../B0B0bar_XsdgammaExp480MH_1.4to1.6.dec | 59 + .../B0B0bar_XsdgammaExp480MH_1.6to1.8.dec | 59 + .../B0B0bar_XsdgammaExp480MH_1.8to2.0.dec | 59 + .../B0B0bar_XsdgammaExp480MH_2.0to2.2.dec | 59 + .../B0B0bar_XsdgammaExp480MH_2.2to2.4.dec | 59 + .../B0B0bar_XsdgammaExp480MH_2.4to2.6.dec | 59 + .../B0B0bar_XsdgammaExp480MH_2.6to2.8.dec | 59 + .../B0B0bar_XsdgammaExp480MH_2.8to3.0.dec | 59 + BaBar_2014/B0B0bar_XsdgammaExp485.dec | 59 + BaBar_2014/B0B0bar_XsdgammaExp490.dec | 59 + BaBar_2014/B0B0bar_XsdgammaExp495.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma1_6To2_7.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma1_7To1_8.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma1_8To1_9.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma1_9To2_0.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma2_0To2_1.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma2_1To2_2.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma2_2To2_3.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma2_3To2_4.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma2_4To2_5.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma2_5To2_6.dec | 59 + .../B0B0bar_XsdgammaFlatEGamma2_6To2_7.dec | 59 + BaBar_2014/B0B0bar_Xsee.dec | 58 + BaBar_2014/B0B0bar_Xsee_pf410.dec | 65 + BaBar_2014/B0B0bar_Xsmumu.dec | 58 + BaBar_2014/B0B0bar_Xsmumu_pf410.dec | 65 + BaBar_2014/B0B0bar_Xstautau.dec | 58 + BaBar_2014/B0B0bar_Xstautau_pf410.dec | 59 + BaBar_2014/B0B0bar_XtoJpsiGammaKs.dec | 48 + BaBar_2014/B0B0bar_XtoJpsiGammaKstar_K.dec | 53 + BaBar_2014/B0B0bar_XtoJpsiGammaKstar_KS.dec | 58 + BaBar_2014/B0B0bar_XtoJpsiPi0Ks.dec | 54 + BaBar_2014/B0B0bar_a00ks_etato3pi.dec | 42 + BaBar_2014/B0B0bar_a00ks_etato3pi_sp4.dec | 42 + BaBar_2014/B0B0bar_a00ks_etatogg.dec | 45 + BaBar_2014/B0B0bar_a00ks_etatogg_sp4.dec | 45 + BaBar_2014/B0B0bar_a00pi0.dec | 38 + BaBar_2014/B0B0bar_a00rho0.dec | 47 + BaBar_2014/B0B0bar_a0mpip.dec | 48 + BaBar_2014/B0B0bar_a0mpip_etato3pi.dec | 48 + BaBar_2014/B0B0bar_a0mrhop.dec | 59 + BaBar_2014/B0B0bar_a0pkm.dec | 47 + BaBar_2014/B0B0bar_a0pkm_etato3pi.dec | 46 + BaBar_2014/B0B0bar_a0ppim.dec | 50 + BaBar_2014/B0B0bar_a0ppim_etato3pi.dec | 48 + BaBar_2014/B0B0bar_a0prhom.dec | 59 + BaBar_2014/B0B0bar_a10K0s.dec | 32 + BaBar_2014/B0B0bar_a10K0s_rhompip.dec | 43 + BaBar_2014/B0B0bar_a10K0s_rhoppim.dec | 42 + BaBar_2014/B0B0bar_a10pi0_rhompip.dec | 37 + BaBar_2014/B0B0bar_a10pi0_rhoppim.dec | 37 + BaBar_2014/B0B0bar_a10rho0_ln.dec | 26 + BaBar_2014/B0B0bar_a10rho0_tr.dec | 26 + BaBar_2014/B0B0bar_a1_DchmKpipimKspi.dec | 55 + BaBar_2014/B0B0bar_a1_DstarmpiD0barmK3pi.dec | 59 + BaBar_2014/B0B0bar_a1_DstarmpiD0barmKpi.dec | 56 + .../B0B0bar_a1_DstarmpiD0barmKpipi0.dec | 57 + .../B0B0bar_a1_DstarmpiD0barmKspipi.dec | 76 + .../B0B0bar_a1_DstarmpiD0mK3pimKs2pi.dec | 117 + .../B0B0bar_a1_DstarmpiD0mKpimKpipi0.dec | 66 + BaBar_2014/B0B0bar_a1mKp.dec | 45 + BaBar_2014/B0B0bar_a1mKp_rhompi0.dec | 44 + BaBar_2014/B0B0bar_a1mPip_RhoPi.dec | 30 + BaBar_2014/B0B0bar_a1mpip.dec | 44 + BaBar_2014/B0B0bar_a1ppim.dec | 40 + .../B0B0bar_a1ppim_rho0pip_NonCPEigen.dec | 68 + .../B0B0bar_a1ppim_rhoppi0_NonCPEigen.dec | 76 + BaBar_2014/B0B0bar_a1prhom_rho0piprhom_ln.dec | 38 + BaBar_2014/B0B0bar_a1prhom_rho0piprhom_tr.dec | 38 + BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_ln.dec | 38 + BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_tr.dec | 38 + BaBar_2014/B0B0bar_a2mpip.dec | 44 + BaBar_2014/B0B0bar_emu.dec | 39 + BaBar_2014/B0B0bar_epem.dec | 33 + BaBar_2014/B0B0bar_etaD0_k3pi.dec | 46 + BaBar_2014/B0B0bar_etaD0_kpi.dec | 47 + BaBar_2014/B0B0bar_etaD0_kpipi0.dec | 46 + BaBar_2014/B0B0bar_etaDstar0_D0gamma_k3pi.dec | 59 + BaBar_2014/B0B0bar_etaDstar0_D0gamma_kpi.dec | 61 + .../B0B0bar_etaDstar0_D0gamma_kpipi0.dec | 60 + BaBar_2014/B0B0bar_etaDstar0_D0pi0_k3pi.dec | 60 + BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpi.dec | 65 + BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpipi0.dec | 60 + BaBar_2014/B0B0bar_etac2K2piKS.dec | 41 + BaBar_2014/B0B0bar_etac2phiKS.dec | 49 + BaBar_2014/B0B0bar_etac2rhoKS.dec | 46 + BaBar_2014/B0B0bar_etac4KKS.dec | 48 + BaBar_2014/B0B0bar_etac4piKS.dec | 41 + BaBar_2014/B0B0bar_etacFourKKS.dec | 49 + BaBar_2014/B0B0bar_etacKKpi0KS.dec | 41 + BaBar_2014/B0B0bar_etacKSKpiKS.dec | 42 + BaBar_2014/B0B0bar_etacKstarKpiKS.dec | 52 + BaBar_2014/B0B0bar_etaceta2piKS.dec | 46 + BaBar_2014/B0B0bar_etakk_phsp.dec | 36 + BaBar_2014/B0B0bar_etakpi_phsp.dec | 36 + BaBar_2014/B0B0bar_etam3pi_Ks.dec | 49 + BaBar_2014/B0B0bar_etam3pi_Kst0mKpi.dec | 53 + .../B0B0bar_etam3pi_Kst0mKspi0m2pi0.dec | 59 + BaBar_2014/B0B0bar_etam3pi_eta.dec | 42 + BaBar_2014/B0B0bar_etam3pi_phi.dec | 41 + BaBar_2014/B0B0bar_etam3pi_pi0.dec | 42 + BaBar_2014/B0B0bar_etam3pi_rhompipi.dec | 59 + BaBar_2014/B0B0bar_etamgg_Ks.dec | 49 + BaBar_2014/B0B0bar_etamgg_Kst0mKpi.dec | 53 + BaBar_2014/B0B0bar_etamgg_Kst0mKspi0m2pi0.dec | 60 + BaBar_2014/B0B0bar_etamgg_eta.dec | 42 + BaBar_2014/B0B0bar_etamgg_phi.dec | 41 + BaBar_2014/B0B0bar_etamgg_pi0.dec | 42 + BaBar_2014/B0B0bar_etamgg_rhompipi.dec | 59 + BaBar_2014/B0B0bar_etapD0_k3pi.dec | 60 + BaBar_2014/B0B0bar_etapD0_kpi.dec | 57 + BaBar_2014/B0B0bar_etapD0_kpipi0.dec | 55 + .../B0B0bar_etapDstar0_D0gamma_k3pi.dec | 67 + BaBar_2014/B0B0bar_etapDstar0_D0gamma_kpi.dec | 70 + .../B0B0bar_etapDstar0_D0gamma_kpipi0.dec | 68 + BaBar_2014/B0B0bar_etapDstar0_D0pi0_k3pi.dec | 68 + BaBar_2014/B0B0bar_etapDstar0_D0pi0_kpi.dec | 71 + .../B0B0bar_etapDstar0_D0pi0_kpipi0.dec | 69 + .../B0B0bar_etapKstar_eta2pi_gg_KSpi0.dec | 62 + ...B0B0bar_etapKstar_eta2pi_gg_KSpi0_2pi0.dec | 64 + .../B0B0bar_etapKstar_eta2pi_gg_Kpi.dec | 58 + .../B0B0bar_etapKstar_eta2pi_pipipi0_Kpi.dec | 57 + BaBar_2014/B0B0bar_etapKstar_rhog_Kspi0.dec | 59 + BaBar_2014/B0B0bar_etapKstar_rhogamma_Kpi.dec | 61 + BaBar_2014/B0B0bar_etapipi.dec | 28 + BaBar_2014/B0B0bar_etapipi_phsp.dec | 36 + BaBar_2014/B0B0bar_etapm5pi_KL.dec | 41 + BaBar_2014/B0B0bar_etapm5pi_KS.dec | 47 + BaBar_2014/B0B0bar_etapm5pi_KS_00.dec | 46 + BaBar_2014/B0B0bar_etapmeppmgg_f0.dec | 46 + BaBar_2014/B0B0bar_etapmgg2pi_KL.dec | 41 + BaBar_2014/B0B0bar_etapmgg2pi_KS.dec | 47 + BaBar_2014/B0B0bar_etapmgg2pi_KS_00.dec | 46 + BaBar_2014/B0B0bar_etapmgg2pi_KSm2pi0.dec | 56 + BaBar_2014/B0B0bar_etapmgg2pi_etam3pi.dec | 46 + BaBar_2014/B0B0bar_etapmgg2pi_etamgg.dec | 41 + BaBar_2014/B0B0bar_etapmgg2pi_etapmgg2pi.dec | 41 + BaBar_2014/B0B0bar_etapmgg2pi_omega.dec | 45 + BaBar_2014/B0B0bar_etapmgg2pi_phi.dec | 45 + BaBar_2014/B0B0bar_etapmgg2pi_pi0.dec | 51 + BaBar_2014/B0B0bar_etapmrho0g_KL.dec | 36 + BaBar_2014/B0B0bar_etapmrho0g_KS.dec | 42 + BaBar_2014/B0B0bar_etapmrho0g_KS_00.dec | 40 + BaBar_2014/B0B0bar_etapmrho0g_pi0.dec | 45 + BaBar_2014/B0B0bar_etapmrhog_etam3pi.dec | 41 + BaBar_2014/B0B0bar_etapmrhog_etamgg.dec | 39 + BaBar_2014/B0B0bar_etapmrhog_etapmgg2pi.dec | 46 + BaBar_2014/B0B0bar_etapmrhog_f0.dec | 41 + BaBar_2014/B0B0bar_etapmrhog_omega.dec | 40 + BaBar_2014/B0B0bar_etapmrhog_phi.dec | 41 + BaBar_2014/B0B0bar_etaprho_eta2pi_gg_2pi.dec | 53 + BaBar_2014/B0B0bar_etaprho_rhog_2pi.dec | 52 + BaBar_2014/B0B0bar_etau.dec | 39 + BaBar_2014/B0B0bar_f01370K0L_f0pipi.dec | 52 + BaBar_2014/B0B0bar_f01370K0s_f0pipi.dec | 52 + BaBar_2014/B0B0bar_f01370K0s_f0pipi_sp4.dec | 50 + BaBar_2014/B0B0bar_f0K0L_f0KK.dec | 58 + BaBar_2014/B0B0bar_f0K0L_f0pipi.dec | 58 + BaBar_2014/B0B0bar_f0K0s_f0KK.dec | 57 + BaBar_2014/B0B0bar_f0K0s_f0pipi.dec | 57 + BaBar_2014/B0B0bar_f0K0s_f0pipi_sp4.dec | 56 + BaBar_2014/B0B0bar_f0Ks_CP.dec | 46 + BaBar_2014/B0B0bar_f0pi0.dec | 28 + BaBar_2014/B0B0bar_f0pi0_f0topi0pi0.dec | 32 + BaBar_2014/B0B0bar_gamma_gamma.dec | 26 + BaBar_2014/B0B0bar_generic.dec | 16 + BaBar_2014/B0B0bar_lambdalambda.dec | 36 + BaBar_2014/B0B0bar_lambdalambdaks.dec | 41 + BaBar_2014/B0B0bar_lambdapK.dec | 34 + BaBar_2014/B0B0bar_lambdappi.dec | 35 + BaBar_2014/B0B0bar_llgamma.dec | 36 + BaBar_2014/B0B0bar_mupmum.dec | 33 + BaBar_2014/B0B0bar_mutau.dec | 39 + BaBar_2014/B0B0bar_noDstarD.dec | 5058 ++++++++++ BaBar_2014/B0B0bar_noSLemu_noSLemu.dec | 644 ++ BaBar_2014/B0B0bar_nunu.dec | 37 + BaBar_2014/B0B0bar_nunugamma.dec | 37 + BaBar_2014/B0B0bar_omegaD0_k3pi.dec | 49 + BaBar_2014/B0B0bar_omegaD0_kpi.dec | 50 + BaBar_2014/B0B0bar_omegaD0_kpipi0.dec | 47 + .../B0B0bar_omegaDstar0_D0gamma_k3pi.dec | 63 + .../B0B0bar_omegaDstar0_D0gamma_kpi.dec | 58 + .../B0B0bar_omegaDstar0_D0gamma_kpipi0.dec | 63 + BaBar_2014/B0B0bar_omegaDstar0_D0pi0_k3pi.dec | 60 + BaBar_2014/B0B0bar_omegaDstar0_D0pi0_kpi.dec | 61 + .../B0B0bar_omegaDstar0_D0pi0_kpipi0.dec | 60 + BaBar_2014/B0B0bar_omegaKS.dec | 56 + BaBar_2014/B0B0bar_omegaKstar_Kppim.dec | 58 + BaBar_2014/B0B0bar_omegaKstar_Kppim_ln.dec | 57 + BaBar_2014/B0B0bar_omegaKstar_Kppim_tr.dec | 56 + BaBar_2014/B0B0bar_omegaKstar_Kspi0.dec | 64 + BaBar_2014/B0B0bar_omegaKstar_Kspi0_ln.dec | 64 + BaBar_2014/B0B0bar_omegaKstar_Kspi0_tr.dec | 64 + BaBar_2014/B0B0bar_omegaRho0_ln.dec | 57 + BaBar_2014/B0B0bar_omegaRho0_tr.dec | 56 + BaBar_2014/B0B0bar_omegagamma.dec | 27 + BaBar_2014/B0B0bar_omegam3pi_eta.dec | 43 + BaBar_2014/B0B0bar_omegam3pi_pi0.dec | 43 + BaBar_2014/B0B0bar_omegaomega_ln.dec | 46 + BaBar_2014/B0B0bar_omegaomega_tr.dec | 46 + BaBar_2014/B0B0bar_phiKL.dec | 36 + BaBar_2014/B0B0bar_phiKL_phiK0LK0S.dec | 40 + BaBar_2014/B0B0bar_phiKS.dec | 41 + BaBar_2014/B0B0bar_phiKS_00.dec | 42 + BaBar_2014/B0B0bar_phiKSpi0.dec | 45 + BaBar_2014/B0B0bar_phiKppim.dec | 40 + BaBar_2014/B0B0bar_phiKst1430_KLpi0.dec | 53 + BaBar_2014/B0B0bar_phiKst1430_Kppim.dec | 53 + BaBar_2014/B0B0bar_phiKstar.dec | 60 + .../B0B0bar_phiKstar1430_K0LK0S_KSpi0.dec | 58 + BaBar_2014/B0B0bar_phiKstar_3piKSpi0_ln.dec | 59 + BaBar_2014/B0B0bar_phiKstar_3piKSpi0_tr.dec | 59 + BaBar_2014/B0B0bar_phiKstar_3piKppim_ln.dec | 53 + BaBar_2014/B0B0bar_phiKstar_3piKppim_tr.dec | 53 + BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_ln.dec | 58 + BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_tr.dec | 58 + .../B0B0bar_phiKstar_3pi_Kppim_trodd.dec | 59 + .../B0B0bar_phiKstar_K0LK0S_KSpi0_ln.dec | 62 + .../B0B0bar_phiKstar_K0LK0S_KSpi0_tr.dec | 62 + BaBar_2014/B0B0bar_phiKstar_KLpi0.dec | 65 + BaBar_2014/B0B0bar_phiKstar_KLpi0_ln.dec | 62 + BaBar_2014/B0B0bar_phiKstar_KLpi0_tr.dec | 62 + BaBar_2014/B0B0bar_phiKstar_KSpi0.dec | 68 + BaBar_2014/B0B0bar_phiKstar_KSpi0_angle1.dec | 81 + BaBar_2014/B0B0bar_phiKstar_KSpi0_angle2.dec | 81 + BaBar_2014/B0B0bar_phiKstar_KSpi0_angle3.dec | 83 + BaBar_2014/B0B0bar_phiKstar_KSpi0_ln.dec | 65 + BaBar_2014/B0B0bar_phiKstar_KSpi0_odd.dec | 65 + BaBar_2014/B0B0bar_phiKstar_KSpi0_tr.dec | 65 + BaBar_2014/B0B0bar_phiKstar_Kppim.dec | 65 + BaBar_2014/B0B0bar_phiKstar_Kppim_angle1.dec | 77 + BaBar_2014/B0B0bar_phiKstar_Kppim_angle2.dec | 77 + BaBar_2014/B0B0bar_phiKstar_Kppim_angle3.dec | 79 + BaBar_2014/B0B0bar_phiKstar_Kppim_ln.dec | 59 + BaBar_2014/B0B0bar_phiKstar_Kppim_odd.dec | 59 + BaBar_2014/B0B0bar_phiKstar_Kppim_tr.dec | 59 + BaBar_2014/B0B0bar_phigamma.dec | 39 + BaBar_2014/B0B0bar_phigamma_phiK0LK0S.dec | 43 + BaBar_2014/B0B0bar_phigamma_phiRho0Pi0.dec | 38 + BaBar_2014/B0B0bar_phigamma_phiRhoPi.dec | 39 + BaBar_2014/B0B0bar_phim3pimnoint_KS.dec | 54 + BaBar_2014/B0B0bar_phim3pimphsp_KS.dec | 47 + BaBar_2014/B0B0bar_phinKS.dec | 41 + BaBar_2014/B0B0bar_phiomega_ln.dec | 51 + BaBar_2014/B0B0bar_phiomega_tr.dec | 51 + BaBar_2014/B0B0bar_phiphi.dec | 45 + BaBar_2014/B0B0bar_phiphi_ln.dec | 49 + BaBar_2014/B0B0bar_phiphi_tr.dec | 49 + BaBar_2014/B0B0bar_phiphiks.dec | 55 + BaBar_2014/B0B0bar_phirho0.dec | 43 + BaBar_2014/B0B0bar_phirho0_ln.dec | 47 + BaBar_2014/B0B0bar_phirho0_tr.dec | 47 + BaBar_2014/B0B0bar_pi02K0s.dec | 30 + BaBar_2014/B0B0bar_pi0D0_k3pi.dec | 43 + BaBar_2014/B0B0bar_pi0D0_kpi.dec | 43 + BaBar_2014/B0B0bar_pi0D0_kpipi0.dec | 43 + BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_k3pi.dec | 58 + BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_kpi.dec | 58 + .../B0B0bar_pi0Dstar0_D0gamma_kpipi0.dec | 57 + BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_k3pi.dec | 54 + BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpi.dec | 55 + BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpipi0.dec | 54 + BaBar_2014/B0B0bar_pi0f0.dec | 38 + BaBar_2014/B0B0bar_pi0f2.dec | 40 + BaBar_2014/B0B0bar_pi0phi_phiKK.dec | 38 + BaBar_2014/B0B0bar_pi0pi0.dec | 26 + BaBar_2014/B0B0bar_pi0pi0Kstar_Kppim.dec | 39 + BaBar_2014/B0B0bar_pi0pi0eta.dec | 29 + BaBar_2014/B0B0bar_pi0rho0.dec | 39 + BaBar_2014/B0B0bar_pi0rho1450.dec | 39 + BaBar_2014/B0B0bar_pi0rho1700.dec | 39 + BaBar_2014/B0B0bar_pi1300mpip.dec | 52 + BaBar_2014/B0B0bar_pi_DmKlpi.dec | 44 + BaBar_2014/B0B0bar_pi_DmKpipi.dec | 46 + BaBar_2014/B0B0bar_pi_DmKspi.dec | 52 + .../B0B0bar_pi_DstarmpiD0bar_Kmepnu.dec | 75 + BaBar_2014/B0B0bar_pi_DstarmpiD0barmK3pi.dec | 56 + BaBar_2014/B0B0bar_pi_DstarmpiD0barmKpi.dec | 57 + .../B0B0bar_pi_DstarmpiD0barmKpipi0.dec | 57 + .../B0B0bar_pi_DstarmpiD0barmKspipi.dec | 74 + BaBar_2014/B0B0bar_pilnu.dec | 35 + BaBar_2014/B0B0bar_pilnu_FLATQ2.dec | 37 + BaBar_2014/B0B0bar_pilnu_phsp.dec | 36 + BaBar_2014/B0B0bar_pimrho1450p.dec | 43 + BaBar_2014/B0B0bar_pimrho1700p.dec | 43 + BaBar_2014/B0B0bar_pippim.dec | 30 + BaBar_2014/B0B0bar_pippim2pi0.dec | 30 + BaBar_2014/B0B0bar_pippimKstar_Kppim.dec | 39 + .../B0B0bar_pippim_direct.p0.41.p0.78.dec | 34 + .../B0B0bar_pippim_direct.p2.41.p0.78.dec | 34 + BaBar_2014/B0B0bar_pippim_m0.57_m0.82.dec | 36 + BaBar_2014/B0B0bar_pippim_p0.57_m0.82.dec | 36 + BaBar_2014/B0B0bar_pippimpi0pi0.dec | 30 + BaBar_2014/B0B0bar_piprho1450m.dec | 43 + BaBar_2014/B0B0bar_piprho1700m.dec | 43 + BaBar_2014/B0B0bar_pirho_1.dec | 44 + BaBar_2014/B0B0bar_pirho_2.dec | 44 + BaBar_2014/B0B0bar_pmLambda_cp.dec | 58 + .../B0B0bar_pmLambda_cppippim_Lambda3pi.dec | 52 + .../B0B0bar_pmLambda_cppippim_Lambdapip.dec | 52 + .../B0B0bar_pmLambda_cppippim_protonkpi.dec | 40 + .../B0B0bar_pmLambda_cppippim_protonks.dec | 57 + .../B0B0bar_pmLambda_cppippim_protonks2pi.dec | 57 + BaBar_2014/B0B0bar_ppbarK0star1430_chrg.dec | 42 + BaBar_2014/B0B0bar_ppbarK1270.dec | 30 + BaBar_2014/B0B0bar_ppbarK2star1430_chrg.dec | 42 + BaBar_2014/B0B0bar_ppbarK3star1780_chrg.dec | 42 + BaBar_2014/B0B0bar_ppbarKS.dec | 35 + BaBar_2014/B0B0bar_ppbarKpi.dec | 31 + BaBar_2014/B0B0bar_ppbarKstar.dec | 42 + BaBar_2014/B0B0bar_ppbarKstar1680_chrg.dec | 42 + BaBar_2014/B0B0bar_ppbarKstar_Kspi0.dec | 47 + BaBar_2014/B0B0bar_ppbarrho.dec | 30 + BaBar_2014/B0B0bar_pppm.dec | 35 + BaBar_2014/B0B0bar_psi2sXKS.dec | 49 + BaBar_2014/B0B0bar_rho0D0_k3pi.dec | 42 + BaBar_2014/B0B0bar_rho0D0_kpi.dec | 43 + BaBar_2014/B0B0bar_rho0D0_kpipi0.dec | 40 + .../B0B0bar_rho0Dstar0_D0gamma_k3pi.dec | 52 + BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_kpi.dec | 53 + .../B0B0bar_rho0Dstar0_D0gamma_kpipi0.dec | 54 + BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_k3pi.dec | 52 + BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_kpi.dec | 54 + .../B0B0bar_rho0Dstar0_D0pi0_kpipi0.dec | 52 + BaBar_2014/B0B0bar_rho0Kppim.dec | 35 + BaBar_2014/B0B0bar_rho0Kstar_Kppim.dec | 50 + BaBar_2014/B0B0bar_rho0Kstar_Kppim_ln.dec | 54 + BaBar_2014/B0B0bar_rho0Kstar_Kppim_tr.dec | 54 + BaBar_2014/B0B0bar_rho0gamma.dec | 27 + BaBar_2014/B0B0bar_rho0pi0pi0.dec | 30 + BaBar_2014/B0B0bar_rho0pippim.dec | 35 + BaBar_2014/B0B0bar_rho0rho0.dec | 40 + BaBar_2014/B0B0bar_rho0rho0_ln.dec | 44 + BaBar_2014/B0B0bar_rho0rho0_tr.dec | 44 + BaBar_2014/B0B0bar_rhoClnu_FLATQ2.dec | 41 + BaBar_2014/B0B0bar_rho_DmKpipi.dec | 46 + BaBar_2014/B0B0bar_rho_DmKspi.dec | 46 + BaBar_2014/B0B0bar_rho_DstarmpiD0barmK3pi.dec | 56 + BaBar_2014/B0B0bar_rho_DstarmpiD0barmKpi.dec | 57 + .../B0B0bar_rho_DstarmpiD0barmKpipi0.dec | 56 + .../B0B0bar_rho_DstarmpiD0barmKspipi.dec | 74 + BaBar_2014/B0B0bar_rhogamma.dec | 29 + BaBar_2014/B0B0bar_rholnu.dec | 36 + BaBar_2014/B0B0bar_rholnu_lcsr.dec | 36 + BaBar_2014/B0B0bar_rholnu_phsp.dec | 36 + BaBar_2014/B0B0bar_rhomKSpip.dec | 40 + BaBar_2014/B0B0bar_rhomKppi0.dec | 35 + BaBar_2014/B0B0bar_rhomKstar_K0Lpip_ln.dec | 52 + BaBar_2014/B0B0bar_rhomKstar_K0pip.dec | 58 + BaBar_2014/B0B0bar_rhomKstar_K0pip_ln.dec | 58 + BaBar_2014/B0B0bar_rhomKstar_K0pip_tr.dec | 58 + BaBar_2014/B0B0bar_rhomKstar_Kppi0.dec | 53 + BaBar_2014/B0B0bar_rhomKstar_Kppi0_ln.dec | 53 + BaBar_2014/B0B0bar_rhomKstar_Kppi0_tr.dec | 53 + BaBar_2014/B0B0bar_rhompippi0.dec | 35 + BaBar_2014/B0B0bar_rhopDm_Dtoepi0nue.dec | 43 + BaBar_2014/B0B0bar_rhoprho0pim.dec | 28 + BaBar_2014/B0B0bar_rhoprhom.dec | 48 + BaBar_2014/B0B0bar_rhoprhom_ln.dec | 48 + BaBar_2014/B0B0bar_rhoprhom_ln_C0.8.dec | 56 + BaBar_2014/B0B0bar_rhoprhom_ln_S0.8.dec | 48 + BaBar_2014/B0B0bar_rhoprhom_tr.dec | 48 + BaBar_2014/B0B0bar_rhoprhompi0.dec | 25 + BaBar_2014/B0B0bar_tauptaum.dec | 31 + BaBar_2014/B0Bch_Breco_DK_Cocktail.dec | 362 + BaBar_2014/B0Bch_Breco_DK_D0CP_Cocktail.dec | 394 + BaBar_2014/B0Pq_KstkLam.dec | 86 + BaBar_2014/B0Pq_KstkLamps.dec | 62 + BaBar_2014/B0Pq_kskLam.dec | 81 + BaBar_2014/B0Pq_kskLamps.dec | 69 + BaBar_2014/B0Pq_phipiLam.dec | 79 + BaBar_2014/B0Pq_phipiLamps.dec | 58 + BaBar_2014/B0Thetac.dec | 84 + ...D0KpimormDpKpipi_B0barToKstar0nunu_Kpi.dec | 251 + BaBar_2014/B0ToDs_DsmDsToKsK.dec | 61 + BaBar_2014/B0ToDs_DsmDsToKstar0K.dec | 65 + BaBar_2014/B0ToDs_starDs_star.dec | 68 + BaBar_2014/B0ToDs_starDs_starmDsToKsK.dec | 77 + BaBar_2014/B0ToDs_starDs_starmDsToKstar0K.dec | 71 + BaBar_2014/B0ToDs_star_Ds.dec | 67 + BaBar_2014/B0ToDs_star_DsmDsToKsK.dec | 77 + BaBar_2014/B0ToDs_star_DsmDsToKstar0K.dec | 68 + BaBar_2014/B0_Dch2pi.dec | 50 + BaBar_2014/B0_Dch3pi.dec | 64 + BaBar_2014/B0_DchPiPiPi.dec | 59 + BaBar_2014/B0_Dstar2pi.dec | 67 + BaBar_2014/B0_Dstar3pi.dec | 125 + BaBar_2014/B0_DstarPiPiPi.dec | 76 + BaBar_2014/B0_XKs_XTOJPsiOmega.dec | 56 + BaBar_2014/B0_hcKs_3had_pm.dec | 50 + BaBar_2014/B0_hcKs_4had_pm.dec | 50 + BaBar_2014/B0_hcKs_JpsiX_pm.dec | 54 + BaBar_2014/B0_hcKs_etacGam_X_pm.dec | 68 + BaBar_2014/B0allB0barpipi_crn.dec | 21 + BaBar_2014/B0barallB0pipi_crn.dec | 21 + BaBar_2014/B0baretapD0.dec | 50 + BaBar_2014/B0baretapD0K3Pietapipigg.dec | 104 + BaBar_2014/B0baretapD0KPiPi0etapipigg.dec | 60 + BaBar_2014/B0baretapD0KPietapipigg.dec | 60 + BaBar_2014/B0baretapDstar0.dec | 65 + BaBar_2014/B0etaD0K3Pigg.dec | 100 + BaBar_2014/B0etaD0K3Pipipipi0.dec | 101 + BaBar_2014/B0etaD0KPiPi0gg.dec | 57 + BaBar_2014/B0etaD0KPiPi0pipipi0.dec | 57 + BaBar_2014/B0etaD0KPigg.dec | 54 + BaBar_2014/B0etaD0KPipipipi0.dec | 55 + BaBar_2014/B0etaD0star_D0K3Pi_gg.dec | 112 + BaBar_2014/B0etaD0star_D0K3Pi_pipipi0.dec | 112 + BaBar_2014/B0etaD0star_D0KPiPi0_gg.dec | 71 + BaBar_2014/B0etaD0star_D0KPiPi0_pipipi0.dec | 71 + BaBar_2014/B0etaD0star_D0KPi_gg.dec | 66 + BaBar_2014/B0etaD0star_D0KPi_pipipi0.dec | 66 + BaBar_2014/B0etapD0K3Pietapipigg.dec | 53 + BaBar_2014/B0etapD0K3Pirho0g.dec | 99 + BaBar_2014/B0etapD0KPiPi0etapipigg.dec | 53 + BaBar_2014/B0etapD0KPiPi0rho0g.dec | 55 + BaBar_2014/B0etapD0KPietapipigg.dec | 53 + BaBar_2014/B0etapD0KPirho0g.dec | 56 + BaBar_2014/B0etapD0etapipigg.dec | 50 + BaBar_2014/B0etapD0star_D0K3Pi_etapipigg.dec | 122 + BaBar_2014/B0etapD0star_D0K3Pi_rho0g.dec | 116 + .../B0etapD0star_D0KPiPi0_etapipigg.dec | 74 + BaBar_2014/B0etapD0star_D0KPiPi0_rho0g.dec | 70 + BaBar_2014/B0etapD0star_D0KPi_etapipigg.dec | 73 + BaBar_2014/B0etapD0star_D0KPi_rho0g.dec | 68 + BaBar_2014/B0etapD0staretapipigg.dec | 60 + BaBar_2014/B0omegaD0K3Pi.dec | 98 + BaBar_2014/B0omegaD0KPi.dec | 54 + BaBar_2014/B0omegaD0KPiPi0.dec | 55 + BaBar_2014/B0omegaD0star_D0K3Pi.dec | 110 + BaBar_2014/B0omegaD0star_D0KPi.dec | 67 + BaBar_2014/B0omegaD0star_D0KPiPi0.dec | 68 + BaBar_2014/B0pi0D0K3Pi.dec | 98 + BaBar_2014/B0pi0D0KPi.dec | 53 + BaBar_2014/B0pi0D0KPiPi0.dec | 54 + BaBar_2014/B0pi0D0star_D0K3Pi.dec | 115 + BaBar_2014/B0pi0D0star_D0KPi.dec | 69 + BaBar_2014/B0pi0D0star_D0KPiPi0.dec | 70 + BaBar_2014/B0pipiD0K3Pi.dec | 93 + BaBar_2014/B0pipiD0KPi.dec | 47 + BaBar_2014/B0pipiD0KPiPi0.dec | 49 + BaBar_2014/B0pipiD0star_D0K3Pi.dec | 108 + BaBar_2014/B0pipiD0star_D0KPi.dec | 62 + BaBar_2014/B0pipiD0star_D0KPiPi0.dec | 63 + BaBar_2014/B0pm_hcK_X.dec | 121 + BaBar_2014/B0rho0D0K3Pi.dec | 93 + BaBar_2014/B0rho0D0KPi.dec | 49 + BaBar_2014/B0rho0D0KPiPi0.dec | 49 + BaBar_2014/B0rho0D0star_D0K3Pi.dec | 108 + BaBar_2014/B0rho0D0star_D0KPi.dec | 62 + BaBar_2014/B0rho0D0star_D0KPiPi0.dec | 63 + BaBar_2014/B0toA0Ks_A0toJpsipi0_width45.dec | 59 + .../B0toAchKch_AchtoJpsipich_width45.dec | 65 + BaBar_2014/B0toD1Pi_D0toKPi.dec | 60 + BaBar_2014/B0toD1Pi_D0toKPiPi0.dec | 61 + BaBar_2014/B0toD1Pi_D0toKPiPiPi.dec | 61 + BaBar_2014/B0toD1Pi_D0toKsPiPi.dec | 71 + .../B0toD2StarPi_D2StartoD0Pi_D0toKPi.dec | 50 + .../B0toD2StarPi_D2StartoD0Pi_D0toKPiPi0.dec | 50 + .../B0toD2StarPi_D2StartoD0Pi_D0toKPiPiPi.dec | 50 + .../B0toD2StarPi_D2StartoD0Pi_D0toKsPiPi.dec | 60 + .../B0toD2StarPi_D2StartoDstar0Pi_D0toKPi.dec | 61 + ...toD2StarPi_D2StartoDstar0Pi_D0toKPiPi0.dec | 61 + ...oD2StarPi_D2StartoDstar0Pi_D0toKPiPiPi.dec | 61 + ...toD2StarPi_D2StartoDstar0Pi_D0toKsPiPi.dec | 71 + .../B0toD2StarPi_Dstar0toD0Gamma_D0toKPi.dec | 61 + ...0toD2StarPi_Dstar0toD0Gamma_D0toKPiPi0.dec | 61 + ...toD2StarPi_Dstar0toD0Gamma_D0toKPiPiPi.dec | 61 + ...0toD2StarPi_Dstar0toD0Gamma_D0toKsPiPi.dec | 71 + BaBar_2014/B0toJPsiK1.dec | 48 + ...oJpsiKs0_JpsitoKstar0Ks0_Kstar0toKmpip.dec | 64 + ...oJpsiKs0_JpsitoKstar0Ks0_Kstar0toKppim.dec | 64 + ...JpsiKs0_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec | 64 + .../B0toJpsiKs0_JpsitoKstarK_Ks0topippim.dec | 92 + ...toJpsiKs0_JpsitoKstarmKp_KstarmtoKmpi0.dec | 63 + ...oJpsiKs0_JpsitoKstarmKp_KstarmtoKs0pim.dec | 63 + ...toJpsiKs0_JpsitoKstarpKm_KstarptoKppi0.dec | 63 + ...oJpsiKs0_JpsitoKstarpKm_KstarptoKs0pip.dec | 63 + .../B0toJpsiKs0_JpsitoRho0Pi0_Ks0topippim.dec | 53 + .../B0toJpsiKs0_JpsitoRho0pip_Ks0topippim.dec | 55 + .../B0toJpsiKs0_JpsitoRhoPi_Ks0topippim.dec | 50 + .../B0toJpsiKs0_JpsitoRhoppim_Ks0topippim.dec | 51 + BaBar_2014/B0toLamPD.dec | 53 + .../B0toXKs0_XtoKstar0Ks0_Kstar0toKmpip.dec | 65 + .../B0toXKs0_XtoKstar0Ks0_Kstar0toKppim.dec | 65 + .../B0toXKs0_XtoKstar0Ks0_Kstar0toKs0pi0.dec | 60 + .../B0toXKs0_XtoKstarmKp_KstarmtoKmpi0.dec | 64 + .../B0toXKs0_XtoKstarmKp_KstarmtoKs0pim.dec | 64 + .../B0toXKs0_XtoKstarpKm_KstarptoKppi0.dec | 64 + .../B0toXKs0_XtoKstarpKm_KstarptoKs0pip.dec | 64 + .../B0toXKs0_XtoRho0Pi0_Ks0topippim.dec | 60 + .../B0toXKs0_XtoRho0pip_Ks0topippim.dec | 52 + .../B0toXKs0_XtoRhoppim_Ks0topippim.dec | 52 + BaBar_2014/B0toXKs_XtoJpsiPi0Pi0.dec | 53 + BaBar_2014/B0toXKs_XtoJpsiRho0.dec | 55 + .../B0toXKs_XtoJpsiRho0_Rho0toPi0Pi0.dec | 56 + BaBar_2014/B0toXpKm_XptoJpsiRhop.dec | 53 + BaBar_2014/B0toY3915Ks_Y3915toJPsiOmega.dec | 51 + ...B0toY3915Ks_Y3915toJPsiOmega_wid_20MeV.dec | 59 + BaBar_2014/B0toY3925Ks_Y3925toJPsiOmega.dec | 51 + ...B0toY3925Ks_Y3925toJPsiOmega_wid_30MeV.dec | 59 + BaBar_2014/B0toZ0Ks_Z0toPsi2Spi0_width45.dec | 68 + .../B0toZchKch_ZchtoPsi2Spich_width45.dec | 74 + BaBar_2014/BB_BrecoCocktail_Kstargamma.dec | 469 + .../BB_BrecoCocktail_XsudgammaExp465.dec | 521 ++ ...BrecoCocktail_XsudgammaExp465_JetSet02.dec | 524 ++ .../BB_BrecoCocktail_XsudgammaExp480.dec | 521 ++ ...BrecoCocktail_XsudgammaExp480_JetSet02.dec | 524 ++ .../BB_BrecoCocktail_XsudgammaExp495.dec | 521 ++ ...BrecoCocktail_XsudgammaExp495_JetSet02.dec | 525 ++ BaBar_2014/BB_BrecoCocktail_Xulnu.dec | 662 ++ BaBar_2014/BB_BrecoCocktail_Xulnu_VUB.dec | 455 + BaBar_2014/BB_BrecoCocktail_Xulnu_excl.dec | 638 ++ BaBar_2014/BB_D0ppbarpi_K2pi.dec | 37 + BaBar_2014/BB_D0ppbarpi_K3pi.dec | 38 + BaBar_2014/BB_D0ppbarpi_Kpi.dec | 37 + BaBar_2014/BB_D0ppbarpi_Ks2pi.dec | 53 + BaBar_2014/BB_etapDetapipitogg.dec | 42 + BaBar_2014/BB_etapDstaretapipitogg.dec | 42 + BaBar_2014/BB_etapK1etapipitogg.dec | 42 + BaBar_2014/BB_etapK1staretapipitogg.dec | 42 + BaBar_2014/BB_etapK2staretapipitogg.dec | 42 + BaBar_2014/BB_etapKstaretapipitogg.dec | 38 + BaBar_2014/BB_etapXs_etapipietatogg.dec | 44 + BaBar_2014/BB_etapXs_etapipietatopipipi0.dec | 43 + BaBar_2014/BB_etapgXs_etapipietatogg.dec | 44 + BaBar_2014/BB_etapgXs_etapipietatopipipi0.dec | 44 + BaBar_2014/BB_etapsqbar.dec | 42 + BaBar_2014/BB_incletap.dec | 35 + BaBar_2014/BB_sgqbar_etapipietatogg.dec | 47 + BaBar_2014/BB_sgqbar_etapipietatogg2.dec | 47 + BaBar_2014/BB_sgqbar_etapipietatopipipi0.dec | 46 + BaBar_2014/BB_sgqbar_etapipietatopipipi02.dec | 46 + BaBar_2014/BBbar_Chi1c_HighRes.dec | 102 + BaBar_2014/BBbar_Jpsi_HighRes.dec | 143 + BaBar_2014/BBbar_Jpsi_HighRes_shorter.dec | 63 + BaBar_2014/BBbar_Psi2s_HighRes.dec | 81 + BaBar_2014/BBetapNPi.dec | 144 + BaBar_2014/B_Xulnu.dec | 291 + BaBar_2014/B_Xulnu_VUB.dec | 88 + BaBar_2014/B_Xulnu_excl.dec | 246 + BaBar_2014/Bch_D02pi.dec | 48 + BaBar_2014/Bch_D03pi.dec | 102 + BaBar_2014/Bch_D0PiPiPi.dec | 56 + BaBar_2014/Bch_Dstar02pi.dec | 62 + BaBar_2014/Bch_Dstar03pi.dec | 116 + BaBar_2014/Bch_Dstar0PiPiPi.dec | 70 + BaBar_2014/Bch_XKch_XTOJPsiOmega.dec | 51 + .../Bch_psi2s_chic12_gamma_brecococktail.dec | 142 + BaBar_2014/BchmD0KmKpimwsmads.dec | 110 + BaBar_2014/BchtoA0Kch_A0toJpsipi0_width45.dec | 54 + .../BchtoAchKs_AchtoJpsipich_width45.dec | 68 + BaBar_2014/BchtoY3915Kch_Y3915toJPsiOmega.dec | 51 + ...htoY3915Kch_Y3915toJPsiOmega_wid_20MeV.dec | 53 + BaBar_2014/BchtoY3925Kch_Y3925toJPsiOmega.dec | 51 + ...htoY3925Kch_Y3925toJPsiOmega_wid_30MeV.dec | 53 + .../BchtoZ0Kch_Z0toPsi2Spi0_width45.dec | 61 + .../BchtoZchKs_ZchtoPsi2Spich_width45.dec | 77 + BaBar_2014/BpBm_2Kpi.dec | 28 + BaBar_2014/BpBm_3K.dec | 29 + BaBar_2014/BpBm_3pi.dec | 28 + BaBar_2014/BpBm_3pi_CP.dec | 33 + BaBar_2014/BpBm_BrecoCocktail_Kpnunu.dec | 136 + BaBar_2014/BpBm_BrecoCocktail_Kstarpnunu.dec | 141 + .../BpBm_BrecoCocktail_dstartaunu_e.dec | 145 + .../BpBm_BrecoCocktail_dstartaunu_excl.dec | 252 + .../BpBm_BrecoCocktail_dstartaunu_mu.dec | 145 + BaBar_2014/BpBm_BrecoCocktail_dtaunu_e.dec | 145 + BaBar_2014/BpBm_BrecoCocktail_dtaunu_excl.dec | 240 + BaBar_2014/BpBm_BrecoCocktail_dtaunu_mu.dec | 145 + BaBar_2014/BpBm_BrecoCocktail_enu.dec | 136 + BaBar_2014/BpBm_BrecoCocktail_munu.dec | 136 + BaBar_2014/BpBm_BrecoCocktail_pipnunu.dec | 136 + BaBar_2014/BpBm_BrecoCocktail_taunu.dec | 129 + .../BpBm_Breco_ColSup_Dstar0rho_cocktail.dec | 130 + BaBar_2014/BpBm_Breco_ColSup_cocktail.dec | 141 + BaBar_2014/BpBm_Breco_ColSup_rho_cocktail.dec | 132 + .../BpBm_Breco_DpipDstarpi_cocktail.dec | 118 + BaBar_2014/BpBm_Breco_Drhoa1_cocktail.dec | 154 + BaBar_2014/BpBm_Brecorhoa1Cocktail_Knunu.dec | 164 + .../BpBm_Brecorhoa1Cocktail_Kstarpnunu.dec | 171 + BaBar_2014/BpBm_Brecorhoa1Cocktail_enu.dec | 173 + BaBar_2014/BpBm_Brecorhoa1Cocktail_munu.dec | 173 + .../BpBm_Brecorhoa1Cocktail_pipnunu.dec | 164 + BaBar_2014/BpBm_Brecorhoa1Cocktail_taunu.dec | 165 + BaBar_2014/BpBm_Chi0cK.dec | 46 + BaBar_2014/BpBm_Chi0cK_All.dec | 34 + BaBar_2014/BpBm_Chi0cKstar_K.dec | 55 + BaBar_2014/BpBm_Chi0cKstar_KS.dec | 60 + BaBar_2014/BpBm_Chi0pi.dec | 39 + BaBar_2014/BpBm_Chi1cK.dec | 46 + BaBar_2014/BpBm_Chi1cK_All.dec | 34 + BaBar_2014/BpBm_Chi1cK_E1.dec | 69 + BaBar_2014/BpBm_Chi1cKstar_KS_sp3.dec | 100 + BaBar_2014/BpBm_Chi1cKstar_Km_sp3.dec | 94 + .../BpBm_Chic1Kstar_KpPi0_RunIpIIPol.dec | 98 + .../BpBm_Chic1Kstar_KsPip_RunIpIIPol.dec | 104 + BaBar_2014/BpBm_D0D_sch_K3piK0K.dec | 166 + BaBar_2014/BpBm_D0D_sch_K3piKstar0K.dec | 160 + BaBar_2014/BpBm_D0D_sch_K3piphipi.dec | 156 + BaBar_2014/BpBm_D0D_sch_KpiK0K.dec | 141 + BaBar_2014/BpBm_D0D_sch_KpiKstar0K.dec | 135 + BaBar_2014/BpBm_D0D_sch_Kpiphipi.dec | 131 + BaBar_2014/BpBm_D0D_sch_Kpipi0K0K.dec | 141 + BaBar_2014/BpBm_D0D_sch_Kpipi0Kstar0K.dec | 135 + BaBar_2014/BpBm_D0D_sch_Kpipi0phipi.dec | 131 + BaBar_2014/BpBm_D0D_sch_KspipiK0K.dec | 142 + BaBar_2014/BpBm_D0D_sch_KspipiKstar0K.dec | 146 + BaBar_2014/BpBm_D0D_sch_Kspipiphipi.dec | 142 + BaBar_2014/BpBm_D0Dch_K3piKpipi.dec | 154 + BaBar_2014/BpBm_D0Dch_K3piKspi.dec | 165 + BaBar_2014/BpBm_D0Dch_KpiKpipi.dec | 129 + BaBar_2014/BpBm_D0Dch_KpiKspi.dec | 140 + BaBar_2014/BpBm_D0Dch_Kpipi0Kpipi.dec | 129 + BaBar_2014/BpBm_D0Dch_Kpipi0Kspi.dec | 140 + BaBar_2014/BpBm_D0Dch_KspipiKpipi.dec | 139 + BaBar_2014/BpBm_D0Dch_KspipiKspi.dec | 141 + BaBar_2014/BpBm_D0Dm_KpiKpipi.dec | 91 + BaBar_2014/BpBm_D0K.dec | 38 + BaBar_2014/BpBm_D0K3pi_D0barK3pi_Kminus.dec | 212 + .../BpBm_D0K3pi_D0barstarK3pi_Kminus.dec | 212 + .../BpBm_D0K3pi_D0barstarKpi_Kminus.dec | 212 + .../BpBm_D0K3pi_D0barstarKpipi0_Kminus.dec | 212 + BaBar_2014/BpBm_D0K3pi_DminusK2pi_K0S.dec | 196 + BaBar_2014/BpBm_D0K3pi_DstarminusK2pi_K0S.dec | 215 + BaBar_2014/BpBm_D0K3pi_DstarminusK3pi_K0S.dec | 215 + BaBar_2014/BpBm_D0K3pi_DstarminusKpi_K0S.dec | 215 + .../BpBm_D0K3pi_DstarminusKpipi0_K0S.dec | 215 + BaBar_2014/BpBm_D0K_CPminusCocktail.dec | 123 + BaBar_2014/BpBm_D0K_CPplusCocktail.dec | 99 + BaBar_2014/BpBm_D0K_D0CabibboNonCP.dec | 97 + BaBar_2014/BpBm_D0K_D0mK3pi.dec | 36 + BaBar_2014/BpBm_D0K_D0mK3pimDCSD.dec | 36 + BaBar_2014/BpBm_D0K_D0mKK.dec | 36 + BaBar_2014/BpBm_D0K_D0mKpi.dec | 36 + BaBar_2014/BpBm_D0K_D0mKpimDCSD.dec | 36 + BaBar_2014/BpBm_D0K_D0mKpipi0.dec | 36 + BaBar_2014/BpBm_D0K_D0mKpipi0mDCSD.dec | 37 + BaBar_2014/BpBm_D0K_D0mKsKK_Ksmpipi_PHSP.dec | 49 + BaBar_2014/BpBm_D0K_D0mKsKpi_Ksmpipi_PHSP.dec | 51 + BaBar_2014/BpBm_D0K_D0mKsKs_Ksmpipi.dec | 56 + BaBar_2014/BpBm_D0K_D0mKspi0_Ksmpipi.dec | 52 + .../BpBm_D0K_D0mKspipi_Ksmpipi_PHSP.dec | 49 + .../BpBm_D0K_D0mKsrho0_Ksmpipi_rho0mpipi.dec | 56 + .../BpBm_D0K_D0metaKs_etam3pi_Ksmpipi.dec | 57 + .../BpBm_D0K_D0metaKs_etamgg_Ksmpipi.dec | 57 + ..._D0metapKs_etapmetapipi_etamgg_Ksmpipi.dec | 62 + ...D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec | 62 + .../BpBm_D0K_D0momegaKs_omegam3pi_Ksmpipi.dec | 57 + .../BpBm_D0K_D0mphiKs_phimKK_Ksmpipi.dec | 57 + .../BpBm_D0K_D0mphieta_phimKK_etam3pi.dec | 59 + .../BpBm_D0K_D0mphieta_phimKK_etamgg.dec | 57 + BaBar_2014/BpBm_D0K_D0mpi0phi_phimKK.dec | 51 + BaBar_2014/BpBm_D0K_D0mpi0pipi_PHSP.dec | 42 + BaBar_2014/BpBm_D0K_D0mpi0rho0_rho0mpipi.dec | 54 + BaBar_2014/BpBm_D0K_D0mpipi.dec | 36 + .../BpBm_D0K_D0mrho0eta_rho0mpipi_etam3pi.dec | 65 + .../BpBm_D0K_D0mrho0eta_rho0mpipi_etamgg.dec | 57 + BaBar_2014/BpBm_D0K_pipipi0mres.dec | 57 + BaBar_2014/BpBm_D0Kpi0_D0CP.dec | 179 + BaBar_2014/BpBm_D0Kpi0_D0NonCP.dec | 142 + BaBar_2014/BpBm_D0Kpi_D0barK3pi_Kminus.dec | 52 + BaBar_2014/BpBm_D0Kpi_D0barKpi_Kminus.dec | 30 + BaBar_2014/BpBm_D0Kpi_D0barKpipi0_Kminus.dec | 30 + .../BpBm_D0Kpi_D0barstarK3pi_Kminus.dec | 56 + BaBar_2014/BpBm_D0Kpi_D0barstarKpi_Kminus.dec | 35 + .../BpBm_D0Kpi_D0barstarKpipi0_Kminus.dec | 35 + BaBar_2014/BpBm_D0Kpi_DminusK2pi_K0S.dec | 38 + BaBar_2014/BpBm_D0Kpi_DstarminusK2pi_K0S.dec | 215 + BaBar_2014/BpBm_D0Kpi_DstarminusK3pi_K0S.dec | 216 + BaBar_2014/BpBm_D0Kpi_DstarminusKpi_K0S.dec | 216 + .../BpBm_D0Kpi_DstarminusKpipi0_K0S.dec | 216 + BaBar_2014/BpBm_D0Kpipi0_D0barK3pi_Kminus.dec | 212 + .../BpBm_D0Kpipi0_D0barKpipi0_Kminus.dec | 212 + .../BpBm_D0Kpipi0_D0barstarK3pi_Kminus.dec | 212 + .../BpBm_D0Kpipi0_D0barstarKpi_Kminus.dec | 212 + .../BpBm_D0Kpipi0_D0barstarKpipi0_Kminus.dec | 212 + BaBar_2014/BpBm_D0Kpipi0_DminusK2pi_K0S.dec | 196 + .../BpBm_D0Kpipi0_DstarminusK2pi_K0S.dec | 215 + .../BpBm_D0Kpipi0_DstarminusK3pi_K0S.dec | 215 + .../BpBm_D0Kpipi0_DstarminusKpi_K0S.dec | 215 + .../BpBm_D0Kpipi0_DstarminusKpipi0_K0S.dec | 215 + BaBar_2014/BpBm_D0Kpipi0_pim.dec | 42 + BaBar_2014/BpBm_D0Krho0_D0CP.dec | 179 + BaBar_2014/BpBm_D0Krho0_D0NonCP.dec | 142 + BaBar_2014/BpBm_D0KsPi_D0mCPp.dec | 65 + BaBar_2014/BpBm_D0KsPi_D0mKK.dec | 55 + BaBar_2014/BpBm_D0KsPi_D0mKsOmega.dec | 63 + BaBar_2014/BpBm_D0KsPi_D0mKsPhi.dec | 59 + BaBar_2014/BpBm_D0KsPi_D0mKsPi0.dec | 56 + BaBar_2014/BpBm_D0KsPi_D0mPiPi.dec | 55 + BaBar_2014/BpBm_D0Kst.dec | 64 + BaBar_2014/BpBm_D0Kstar.dec | 135 + BaBar_2014/BpBm_D0Kstar_CPminusCocktail.dec | 133 + BaBar_2014/BpBm_D0Kstar_CPplusCocktail.dec | 108 + BaBar_2014/BpBm_D0Kstar_D0CabibboNonCP.dec | 97 + BaBar_2014/BpBm_D0Kstar_D0mK3pi.dec | 36 + BaBar_2014/BpBm_D0Kstar_D0mK3pimDCSD.dec | 36 + BaBar_2014/BpBm_D0Kstar_D0mKK.dec | 36 + BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKPi0.dec | 59 + BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKsPi.dec | 64 + .../BpBm_D0Kstar_D0mKPiPi0_KstarmKPi0.dec | 60 + .../BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi.dec | 64 + .../BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi_ADS.dec | 67 + .../BpBm_D0Kstar_D0mKPiPiPi_KstarmKPi0.dec | 60 + .../BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi.dec | 64 + ...BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi_ADS.dec | 67 + BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKPi0.dec | 59 + BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKsPi.dec | 64 + .../BpBm_D0Kstar_D0mKPi_KstarmKsPi_ADS.dec | 67 + BaBar_2014/BpBm_D0Kstar_D0mKpi.dec | 36 + BaBar_2014/BpBm_D0Kstar_D0mKpimDCSD.dec | 36 + BaBar_2014/BpBm_D0Kstar_D0mKpipi0.dec | 36 + BaBar_2014/BpBm_D0Kstar_D0mKpipi0mDCSD.dec | 37 + .../BpBm_D0Kstar_D0mKsEtaP_KstarmKsPi.dec | 101 + .../BpBm_D0Kstar_D0mKsEta_KstarmKsPi.dec | 82 + .../BpBm_D0Kstar_D0mKsKK_Ksmpipi_PHSP.dec | 49 + .../BpBm_D0Kstar_D0mKsKpi_Ksmpipi_PHSP.dec | 51 + .../BpBm_D0Kstar_D0mKsOmega_KstarmKPi0.dec | 84 + .../BpBm_D0Kstar_D0mKsOmega_KstarmKsPi.dec | 82 + BaBar_2014/BpBm_D0Kstar_D0mKsPhi.dec | 83 + .../BpBm_D0Kstar_D0mKsPhi_KstarmKPi0.dec | 69 + .../BpBm_D0Kstar_D0mKsPhi_KstarmKsPi.dec | 70 + BaBar_2014/BpBm_D0Kstar_D0mKsPi0.dec | 78 + .../BpBm_D0Kstar_D0mKsPi0_KstarmKPi0.dec | 64 + .../BpBm_D0Kstar_D0mKsPi0_KstarmKsPi.dec | 64 + .../BpBm_D0Kstar_D0mKsRho_KstarmKsPi.dec | 82 + .../BpBm_D0Kstar_D0mKspipi_Ksmpipi_PHSP.dec | 49 + .../BpBm_D0Kstar_D0mPiPi_KstarmKPi0.dec | 59 + .../BpBm_D0Kstar_D0mPiPi_KstarmKsPi.dec | 64 + .../BpBm_D0Kstar_D0mpi0pipi_Ksmpipi_PHSP.dec | 41 + BaBar_2014/BpBm_D0Kstar_D0mpi0pipi_PHSP.dec | 41 + BaBar_2014/BpBm_D0Kstar_D0mpipi.dec | 36 + BaBar_2014/BpBm_D0Kstar_D0mpipimKK.dec | 70 + BaBar_2014/BpBm_D0_a0p.dec | 135 + BaBar_2014/BpBm_D0barK3pi_Ds1Dstar0K_Kpi.dec | 219 + BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_K3pi.dec | 219 + BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_Kpi.dec | 219 + .../BpBm_D0barKpi_Ds1Dstar0K_Kpipi0.dec | 219 + .../BpBm_D0barKpipi0_Ds1Dstar0K_Kpi.dec | 219 + BaBar_2014/BpBm_D0bar_Kstarp.dec | 55 + BaBar_2014/BpBm_D0barppbarpi_Kpi.dec | 44 + BaBar_2014/BpBm_D0lnu.dec | 42 + BaBar_2014/BpBm_D0lnu_Kpi.dec | 43 + BaBar_2014/BpBm_D0lnu_Kpipi.dec | 43 + BaBar_2014/BpBm_D0lnu_Kpipipi.dec | 43 + BaBar_2014/BpBm_D0mKpimpi_Xclnu.dec | 97 + BaBar_2014/BpBm_D0mKpimpi_Xulnu.dec | 176 + BaBar_2014/BpBm_D0pi_1.dec | 41 + BaBar_2014/BpBm_D0pi_1_PHOTOS.dec | 46 + BaBar_2014/BpBm_D0pi_2.dec | 41 + BaBar_2014/BpBm_D0pi_3.dec | 41 + BaBar_2014/BpBm_D0pi_D0CabibboNonCP.dec | 97 + BaBar_2014/BpBm_D0pi_D0K0pi0.dec | 42 + BaBar_2014/BpBm_D0pi_D0mK3pi.dec | 36 + BaBar_2014/BpBm_D0pi_D0mK3pi_DCSD.dec | 36 + BaBar_2014/BpBm_D0pi_D0mKK.dec | 36 + BaBar_2014/BpBm_D0pi_D0mKlpi0.dec | 40 + BaBar_2014/BpBm_D0pi_D0mKpi.dec | 36 + BaBar_2014/BpBm_D0pi_D0mKpimDCSD.dec | 36 + BaBar_2014/BpBm_D0pi_D0mKpipi0.dec | 36 + BaBar_2014/BpBm_D0pi_D0mKpipi0_DCSD.dec | 37 + BaBar_2014/BpBm_D0pi_D0mKspi0_Ksmpipi.dec | 52 + BaBar_2014/BpBm_D0pi_D0mKspipi.dec | 38 + .../BpBm_D0pi_D0mKsrho0_Ksmpipi_rho0mpipi.dec | 56 + ...BpBm_D0pi_D0momegaKs_omegam3pi_Ksmpipi.dec | 57 + .../BpBm_D0pi_D0mphiKs_phimKK_Ksmpipi.dec | 58 + BaBar_2014/BpBm_D0pi_D0mpipi.dec | 36 + BaBar_2014/BpBm_D0pim.dec | 32 + BaBar_2014/BpBm_D0pim_Kspipi.dec | 41 + BaBar_2014/BpBm_D0ppbarpi_Kpi.dec | 44 + BaBar_2014/BpBm_D0rho_D0CabibboNonCP.dec | 97 + BaBar_2014/BpBm_D0rho_D0mK3pi.dec | 36 + BaBar_2014/BpBm_D0rho_D0mKK.dec | 36 + BaBar_2014/BpBm_D0rho_D0mKpi.dec | 36 + BaBar_2014/BpBm_D0rho_D0mKpipi0.dec | 36 + BaBar_2014/BpBm_D0rho_D0mKspi0.dec | 38 + BaBar_2014/BpBm_D0rho_D0mpipi.dec | 36 + .../BpBm_D0starK3pi_D0barstarK3pi_Kminus.dec | 212 + .../BpBm_D0starK3pi_DstarminusK2pi_K0S.dec | 215 + .../BpBm_D0starK3pi_DstarminusK3pi_K0S.dec | 215 + .../BpBm_D0starK3pi_DstarminusKpi_K0S.dec | 215 + .../BpBm_D0starK3pi_DstarminusKpipi0_K0S.dec | 215 + .../BpBm_D0starKpi_D0barstarK3pi_Kminus.dec | 213 + .../BpBm_D0starKpi_D0barstarKpi_Kminus.dec | 213 + .../BpBm_D0starKpi_D0barstarKpipi0_Kminus.dec | 213 + BaBar_2014/BpBm_D0starKpi_DminusK2pi_K0S.dec | 44 + .../BpBm_D0starKpi_DstarminusK2pi_K0S.dec | 215 + .../BpBm_D0starKpi_DstarminusK3pi_K0S.dec | 216 + .../BpBm_D0starKpi_DstarminusKpi_K0S.dec | 216 + .../BpBm_D0starKpi_DstarminusKpipi0_K0S.dec | 216 + ...BpBm_D0starKpipi0_D0barstarK3pi_Kminus.dec | 212 + ...Bm_D0starKpipi0_D0barstarKpipi0_Kminus.dec | 212 + .../BpBm_D0starKpipi0_DstarminusK2pi_K0S.dec | 215 + .../BpBm_D0starKpipi0_DstarminusK3pi_K0S.dec | 215 + .../BpBm_D0starKpipi0_DstarminusKpi_K0S.dec | 215 + ...BpBm_D0starKpipi0_DstarminusKpipi0_K0S.dec | 215 + BaBar_2014/BpBm_D0str0pi_Dpi_Kpipi.dec | 80 + BaBar_2014/BpBm_D0str0pi_Dpi_Kspi.dec | 82 + BaBar_2014/BpBm_D0str0pi_Dpipi.dec | 88 + BaBar_2014/BpBm_D10lnu.dec | 118 + BaBar_2014/BpBm_D10lnu_D0Kpi.dec | 65 + BaBar_2014/BpBm_D10lnu_Dstr0PDG_D0Kpi.dec | 101 + BaBar_2014/BpBm_D10lnu_Dstr0pi0.dec | 103 + BaBar_2014/BpBm_D10pi_D0Kpi.dec | 62 + BaBar_2014/BpBm_D10pi_D0Kpipi0.dec | 62 + BaBar_2014/BpBm_D10pi_D0Kpipipi.dec | 62 + BaBar_2014/BpBm_D10pi_D0Kspipi.dec | 79 + BaBar_2014/BpBm_D10pi_Dstpipi.dec | 88 + BaBar_2014/BpBm_D10pim.dec | 54 + BaBar_2014/BpBm_D1prime0lnu_D0Kpi.dec | 68 + BaBar_2014/BpBm_D1prime0pi_D0Kpi.dec | 62 + BaBar_2014/BpBm_D1prime0pi_D0Kpipi0.dec | 62 + BaBar_2014/BpBm_D1prime0pi_D0Kpipipi.dec | 62 + BaBar_2014/BpBm_D1prime0pi_D0Kspipi.dec | 78 + BaBar_2014/BpBm_D1prime0pi_Dstpipi.dec | 89 + BaBar_2014/BpBm_D2S0lnu_D0Kpi.dec | 69 + BaBar_2014/BpBm_D2Sstr0lnu_D0Kpi.dec | 68 + BaBar_2014/BpBm_D2str0lnu.dec | 118 + BaBar_2014/BpBm_D2str0lnu_D0Kpi.dec | 69 + BaBar_2014/BpBm_D2str0lnu_Dpi.dec | 99 + BaBar_2014/BpBm_D2str0lnu_Dstr0PDG_D0Kpi.dec | 100 + BaBar_2014/BpBm_D2str0lnu_Dstr0pi0.dec | 103 + BaBar_2014/BpBm_D2str0pi_D0Kpi.dec | 62 + BaBar_2014/BpBm_D2str0pi_D0Kpipi0.dec | 62 + BaBar_2014/BpBm_D2str0pi_D0Kpipipi.dec | 62 + BaBar_2014/BpBm_D2str0pi_D0Kspipi.dec | 77 + BaBar_2014/BpBm_D2str0pi_Dpi_Kpipi.dec | 83 + BaBar_2014/BpBm_D2str0pi_Dpi_Kspi.dec | 79 + BaBar_2014/BpBm_D2str0pi_Dpipi.dec | 85 + BaBar_2014/BpBm_D2str0pi_Dstpipi.dec | 88 + BaBar_2014/BpBm_DD_exclusive.dec | 210 + BaBar_2014/BpBm_DKstar0.dec | 70 + BaBar_2014/BpBm_D_10_rhom.dec | 31 + BaBar_2014/BpBm_D_10a1m_DstarD0pi.dec | 51 + BaBar_2014/BpBm_D_10pim_DstarD0pi.dec | 51 + BaBar_2014/BpBm_D_10rhom_DstarD0pi.dec | 51 + BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0K3pi.dec | 60 + BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0Kpi.dec | 60 + .../BpBm_D_10rhom_DstarD0pi_D0Kpipi0.dec | 60 + BaBar_2014/BpBm_D_2star0a1m_DstarD0pi.dec | 51 + BaBar_2014/BpBm_D_2star0pim_DstarD0pi.dec | 54 + BaBar_2014/BpBm_D_2star0rhom_DstarD0pi.dec | 51 + .../BpBm_D_2star0rhom_DstarD0pi_D0K3pi.dec | 60 + .../BpBm_D_2star0rhom_DstarD0pi_D0Kpi.dec | 60 + .../BpBm_D_2star0rhom_DstarD0pi_D0Kpipi0.dec | 60 + BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KK3pi.dec | 173 + BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKpi.dec | 148 + .../BpBm_D_sstarD0_D_sgD0_Ks0KKpipi0.dec | 148 + .../BpBm_D_sstarD0_D_sgD0_Ks0KKspipi.dec | 149 + .../BpBm_D_sstarD0_D_sgD0_Kstar0KK3pi.dec | 167 + .../BpBm_D_sstarD0_D_sgD0_Kstar0KKpi.dec | 142 + .../BpBm_D_sstarD0_D_sgD0_Kstar0KKpipi0.dec | 142 + .../BpBm_D_sstarD0_D_sgD0_Kstar0KKspipi.dec | 153 + .../BpBm_D_sstarD0_D_sgD0_phipiK3pi.dec | 163 + BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKpi.dec | 138 + .../BpBm_D_sstarD0_D_sgD0_phipiKpipi0.dec | 138 + .../BpBm_D_sstarD0_D_sgD0_phipiKspipi.dec | 149 + BaBar_2014/BpBm_Denubar_DmKpi.dec | 40 + BaBar_2014/BpBm_Denubar_DmKpipi0.dec | 40 + BaBar_2014/BpBm_DlnuXCocktail_taunu.dec | 133 + ...lnuX_D0mKpimKpipipimKpipimKspipi_Xclnu.dec | 140 + BaBar_2014/BpBm_Dmppbar2pip_K2pi.dec | 44 + BaBar_2014/BpBm_Dmunubar_DmKpi.dec | 41 + BaBar_2014/BpBm_Dmunubar_DmKpipi0.dec | 40 + BaBar_2014/BpBm_DpKs.dec | 257 + BaBar_2014/BpBm_Dpipi_nonres.dec | 60 + BaBar_2014/BpBm_Dpipi_nonres_KPiPi.dec | 43 + .../BpBm_DplusK2pi_DminusK2pi_Kminus.dec | 33 + .../BpBm_DplusK2pi_DstarminusK3pi_Kminus.dec | 59 + .../BpBm_DplusK2pi_DstarminusKpi_Kminus.dec | 38 + ...BpBm_DplusK2pi_DstarminusKpipi0_Kminus.dec | 38 + BaBar_2014/BpBm_Dpppbar_K2pi.dec | 44 + BaBar_2014/BpBm_Dpppbarpippim_K2pi.dec | 44 + .../BpBm_Dprime10lnu_Dstr0PDG_D0Kpi.dec | 100 + BaBar_2014/BpBm_Dprime_10a1m_DstarD0pi.dec | 51 + BaBar_2014/BpBm_Dprime_10pim_DstarD0pi.dec | 51 + BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi.dec | 51 + .../BpBm_Dprime_10rhom_DstarD0pi_D0K3pi.dec | 60 + .../BpBm_Dprime_10rhom_DstarD0pi_D0Kpi.dec | 60 + .../BpBm_Dprime_10rhom_DstarD0pi_D0Kpipi0.dec | 60 + BaBar_2014/BpBm_DsD0_phipiKpi.dec | 103 + BaBar_2014/BpBm_DsStar_phi_00.dec | 87 + BaBar_2014/BpBm_DsStar_phi_11.dec | 87 + BaBar_2014/BpBm_Ds_D0_KstarK_k3pi.dec | 140 + BaBar_2014/BpBm_Ds_D0_KstarK_kpi.dec | 134 + BaBar_2014/BpBm_Ds_D0_KstarK_kpipi0.dec | 134 + BaBar_2014/BpBm_Ds_D0_phipi_k3pi.dec | 140 + BaBar_2014/BpBm_Ds_D0_phipi_kpi.dec | 134 + BaBar_2014/BpBm_Ds_D0_phipi_kpipi0.dec | 134 + BaBar_2014/BpBm_Ds_D0_recomodes.dec | 152 + .../BpBm_Ds_Dstar0D0gamma_recomodes.dec | 149 + BaBar_2014/BpBm_Ds_Dstar0_KstarK_k3pi.dec | 140 + BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpi.dec | 134 + BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpipi0.dec | 134 + BaBar_2014/BpBm_Ds_Dstar0_phipi_k3pi.dec | 140 + BaBar_2014/BpBm_Ds_Dstar0_phipi_kpi.dec | 134 + BaBar_2014/BpBm_Ds_Dstar0_phipi_kpipi0.dec | 134 + BaBar_2014/BpBm_Ds_Dstar0_recomodes.dec | 152 + BaBar_2014/BpBm_Ds_Kstar0_recomodes.dec | 85 + BaBar_2014/BpBm_Ds_a10_recomodes.dec | 79 + BaBar_2014/BpBm_Ds_phi.dec | 73 + BaBar_2014/BpBm_Ds_pi0_recomodes.dec | 75 + BaBar_2014/BpBm_Ds_rho0_recomodes.dec | 79 + BaBar_2014/BpBm_Dspi0_DsetaPpi.dec | 51 + BaBar_2014/BpBm_Dspi0_Dsetapi.dec | 46 + BaBar_2014/BpBm_Dsrho0_DsetaPpi.dec | 52 + BaBar_2014/BpBm_Dsrho0_Dsetapi.dec | 47 + .../BpBm_Dss0toDspi0_D0_KstarK_k3pi.dec | 254 + BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_kpi.dec | 254 + .../BpBm_Dss0toDspi0_D0_KstarK_kpipi0.dec | 254 + BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_k3pi.dec | 205 + BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_kpi.dec | 205 + .../BpBm_Dss0toDspi0_D0_phipi_kpipi0.dec | 213 + .../BpBm_Dss0toDspi0_Dstar0_KstarK_k3pi.dec | 254 + .../BpBm_Dss0toDspi0_Dstar0_KstarK_kpi.dec | 254 + .../BpBm_Dss0toDspi0_Dstar0_KstarK_kpipi0.dec | 254 + .../BpBm_Dss0toDspi0_Dstar0_phipi_k3pi.dec | 232 + .../BpBm_Dss0toDspi0_Dstar0_phipi_kpi.dec | 232 + .../BpBm_Dss0toDspi0_Dstar0_phipi_kpipi0.dec | 248 + .../BpBm_Dss1toDsgamma_D0_KstarK_k3pi.dec | 254 + .../BpBm_Dss1toDsgamma_D0_KstarK_kpi.dec | 254 + .../BpBm_Dss1toDsgamma_D0_KstarK_kpipi0.dec | 254 + .../BpBm_Dss1toDsgamma_D0_phipi_k3pi.dec | 205 + .../BpBm_Dss1toDsgamma_D0_phipi_kpi.dec | 205 + .../BpBm_Dss1toDsgamma_D0_phipi_kpipi0.dec | 213 + .../BpBm_Dss1toDsgamma_Dstar0_KstarK_k3pi.dec | 254 + .../BpBm_Dss1toDsgamma_Dstar0_KstarK_kpi.dec | 254 + ...pBm_Dss1toDsgamma_Dstar0_KstarK_kpipi0.dec | 254 + .../BpBm_Dss1toDsgamma_Dstar0_phipi_k3pi.dec | 232 + .../BpBm_Dss1toDsgamma_Dstar0_phipi_kpi.dec | 232 + ...BpBm_Dss1toDsgamma_Dstar0_phipi_kpipi0.dec | 248 + .../BpBm_Dss1toDspi0_D0_KstarK_k3pi.dec | 254 + BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_kpi.dec | 254 + .../BpBm_Dss1toDspi0_D0_KstarK_kpipi0.dec | 254 + BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_k3pi.dec | 205 + BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_kpi.dec | 205 + .../BpBm_Dss1toDspi0_D0_phipi_kpipi0.dec | 213 + .../BpBm_Dss1toDspi0_Dstar0_KstarK_k3pi.dec | 254 + .../BpBm_Dss1toDspi0_Dstar0_KstarK_kpi.dec | 254 + .../BpBm_Dss1toDspi0_Dstar0_KstarK_kpipi0.dec | 254 + .../BpBm_Dss1toDspi0_Dstar0_phipi_k3pi.dec | 232 + .../BpBm_Dss1toDspi0_Dstar0_phipi_kpi.dec | 232 + .../BpBm_Dss1toDspi0_Dstar0_phipi_kpipi0.dec | 248 + .../BpBm_Dss1toDsstarpi0_D0_KstarK_k3pi.dec | 263 + .../BpBm_Dss1toDsstarpi0_D0_KstarK_kpi.dec | 263 + .../BpBm_Dss1toDsstarpi0_D0_KstarK_kpipi0.dec | 263 + .../BpBm_Dss1toDsstarpi0_D0_phipi_k3pi.dec | 205 + .../BpBm_Dss1toDsstarpi0_D0_phipi_kpi.dec | 205 + .../BpBm_Dss1toDsstarpi0_D0_phipi_kpipi0.dec | 213 + ...pBm_Dss1toDsstarpi0_Dstar0_KstarK_k3pi.dec | 263 + ...BpBm_Dss1toDsstarpi0_Dstar0_KstarK_kpi.dec | 263 + ...m_Dss1toDsstarpi0_Dstar0_KstarK_kpipi0.dec | 263 + ...BpBm_Dss1toDsstarpi0_Dstar0_phipi_k3pi.dec | 232 + .../BpBm_Dss1toDsstarpi0_Dstar0_phipi_kpi.dec | 232 + ...Bm_Dss1toDsstarpi0_Dstar0_phipi_kpipi0.dec | 248 + BaBar_2014/BpBm_DsstarD0_Dsg_phipiKpi.dec | 107 + BaBar_2014/BpBm_DsstarD0_DsgammaD.dec | 251 + .../BpBm_DsstarDstar0_DsgammaD0pi0gamma.dec | 251 + BaBar_2014/BpBm_Dsstar_D0_KstarK_k3pi.dec | 140 + BaBar_2014/BpBm_Dsstar_D0_KstarK_kpi.dec | 134 + BaBar_2014/BpBm_Dsstar_D0_KstarK_kpipi0.dec | 134 + BaBar_2014/BpBm_Dsstar_D0_phipi_k3pi.dec | 140 + BaBar_2014/BpBm_Dsstar_D0_phipi_kpi.dec | 134 + BaBar_2014/BpBm_Dsstar_D0_phipi_kpipi0.dec | 134 + BaBar_2014/BpBm_Dsstar_D0_recomodes.dec | 152 + .../BpBm_Dsstar_Dstar0D0gamma_recomodes.dec | 149 + BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_k3pi.dec | 140 + BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_kpi.dec | 134 + .../BpBm_Dsstar_Dstar0_KstarK_kpipi0.dec | 134 + .../BpBm_Dsstar_Dstar0_KstarK_ks2pi.dec | 85 + BaBar_2014/BpBm_Dsstar_Dstar0_phipi_k3pi.dec | 140 + BaBar_2014/BpBm_Dsstar_Dstar0_phipi_kpi.dec | 134 + .../BpBm_Dsstar_Dstar0_phipi_kpipi0.dec | 134 + BaBar_2014/BpBm_Dsstar_Dstar0_phipi_ks2pi.dec | 82 + BaBar_2014/BpBm_Dsstar_Dstar0_recomodes.dec | 152 + .../BpBm_Dsstar_Kstar0_recomodes_long.dec | 92 + .../BpBm_Dsstar_Kstar0_recomodes_tran.dec | 92 + BaBar_2014/BpBm_Dsstar_a10_recomodes_long.dec | 89 + BaBar_2014/BpBm_Dsstar_a10_recomodes_tran.dec | 89 + BaBar_2014/BpBm_Dsstar_pi0_recomodes.dec | 84 + BaBar_2014/BpBm_Dsstar_rho0_recomodes.dec | 84 + .../BpBm_Dsstar_rho0_recomodes_long.dec | 89 + .../BpBm_Dsstar_rho0_recomodes_tran.dec | 89 + BaBar_2014/BpBm_DsstarpKs.dec | 59 + BaBar_2014/BpBm_Dsstarpi0_DsetaPpi.dec | 63 + BaBar_2014/BpBm_Dsstarpi0_Dsetapi.dec | 57 + BaBar_2014/BpBm_Dsstarrho0_DsetaPpi.dec | 62 + BaBar_2014/BpBm_Dsstarrho0_Dsetapi.dec | 57 + BaBar_2014/BpBm_Dst0K.dec | 49 + BaBar_2014/BpBm_Dst0Kst.dec | 73 + .../BpBm_Dstar0D_sch_D0gD_sch_K3piKstar0K.dec | 167 + .../BpBm_Dstar0D_sch_D0gD_sch_K3piphipi.dec | 163 + .../BpBm_Dstar0D_sch_D0gD_sch_KpiKstar0K.dec | 142 + .../BpBm_Dstar0D_sch_D0gD_sch_Kpiphipi.dec | 138 + ...pBm_Dstar0D_sch_D0gD_sch_Kpipi0Kstar0K.dec | 142 + .../BpBm_Dstar0D_sch_D0gD_sch_Kpipi0phipi.dec | 138 + ...pBm_Dstar0D_sch_D0gD_sch_KspipiKstar0K.dec | 153 + .../BpBm_Dstar0D_sch_D0gD_sch_Kspipiphipi.dec | 149 + .../BpBm_Dstar0D_sch_D0gK0K_K3piKs0K.dec | 173 + .../BpBm_Dstar0D_sch_D0gK0K_KpiKs0K.dec | 148 + .../BpBm_Dstar0D_sch_D0gK0K_Kpipi0Ks0K.dec | 148 + .../BpBm_Dstar0D_sch_D0gK0K_KspipiKs0K.dec | 149 + ...pBm_Dstar0D_sch_D0pi0D_sch_K3piKstar0K.dec | 167 + .../BpBm_Dstar0D_sch_D0pi0D_sch_K3piphipi.dec | 163 + ...BpBm_Dstar0D_sch_D0pi0D_sch_KpiKstar0K.dec | 142 + .../BpBm_Dstar0D_sch_D0pi0D_sch_Kpiphipi.dec | 138 + ...m_Dstar0D_sch_D0pi0D_sch_Kpipi0Kstar0K.dec | 142 + ...pBm_Dstar0D_sch_D0pi0D_sch_Kpipi0phipi.dec | 138 + ...m_Dstar0D_sch_D0pi0D_sch_KspipiKstar0K.dec | 153 + ...pBm_Dstar0D_sch_D0pi0D_sch_Kspipiphipi.dec | 149 + .../BpBm_Dstar0D_sch_D0pi0K0K_K3piKs0K.dec | 173 + .../BpBm_Dstar0D_sch_D0pi0K0K_KpiKs0K.dec | 148 + .../BpBm_Dstar0D_sch_D0pi0K0K_Kpipi0Ks0K.dec | 148 + .../BpBm_Dstar0D_sch_D0pi0K0K_KspipiKs0K.dec | 149 + .../BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0K.dec | 180 + ...Bm_Dstar0D_sstar_D0gD_sg_K3piKs0K_phsp.dec | 179 + ...pBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km001.dec | 179 + ...pBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km010.dec | 179 + ...pBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km100.dec | 179 + ...BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0K.dec | 174 + ...Dstar0D_sstar_D0gD_sg_K3piKstar0K_phsp.dec | 173 + ..._Dstar0D_sstar_D0gD_sg_K3piKstar0Km001.dec | 173 + ..._Dstar0D_sstar_D0gD_sg_K3piKstar0Km010.dec | 173 + ..._Dstar0D_sstar_D0gD_sg_K3piKstar0Km100.dec | 173 + .../BpBm_Dstar0D_sstar_D0gD_sg_K3piphipi.dec | 170 + ...m_Dstar0D_sstar_D0gD_sg_K3piphipi_phsp.dec | 169 + ...Bm_Dstar0D_sstar_D0gD_sg_K3piphipim001.dec | 169 + ...Bm_Dstar0D_sstar_D0gD_sg_K3piphipim010.dec | 169 + ...Bm_Dstar0D_sstar_D0gD_sg_K3piphipim100.dec | 169 + .../BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0K.dec | 155 + ...pBm_Dstar0D_sstar_D0gD_sg_KpiKs0K_phsp.dec | 154 + ...BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km001.dec | 154 + ...BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km010.dec | 154 + ...BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km100.dec | 154 + .../BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0K.dec | 149 + ..._Dstar0D_sstar_D0gD_sg_KpiKstar0K_phsp.dec | 148 + ...m_Dstar0D_sstar_D0gD_sg_KpiKstar0Km001.dec | 148 + ...m_Dstar0D_sstar_D0gD_sg_KpiKstar0Km010.dec | 148 + ...m_Dstar0D_sstar_D0gD_sg_KpiKstar0Km100.dec | 148 + .../BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipi.dec | 145 + ...Bm_Dstar0D_sstar_D0gD_sg_Kpiphipi_phsp.dec | 144 + ...pBm_Dstar0D_sstar_D0gD_sg_Kpiphipim001.dec | 144 + ...pBm_Dstar0D_sstar_D0gD_sg_Kpiphipim010.dec | 144 + ...pBm_Dstar0D_sstar_D0gD_sg_Kpiphipim100.dec | 144 + .../BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K.dec | 155 + ..._Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K_phsp.dec | 154 + ...m_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km001.dec | 154 + ...m_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km010.dec | 154 + ...m_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km100.dec | 154 + ...Bm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0K.dec | 149 + ...tar0D_sstar_D0gD_sg_Kpipi0Kstar0K_phsp.dec | 148 + ...star0D_sstar_D0gD_sg_Kpipi0Kstar0Km001.dec | 148 + ...star0D_sstar_D0gD_sg_Kpipi0Kstar0Km010.dec | 148 + ...star0D_sstar_D0gD_sg_Kpipi0Kstar0Km100.dec | 148 + ...BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipi.dec | 145 + ...Dstar0D_sstar_D0gD_sg_Kpipi0phipi_phsp.dec | 144 + ..._Dstar0D_sstar_D0gD_sg_Kpipi0phipim001.dec | 144 + ..._Dstar0D_sstar_D0gD_sg_Kpipi0phipim010.dec | 144 + ..._Dstar0D_sstar_D0gD_sg_Kpipi0phipim100.dec | 144 + .../BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0K.dec | 156 + ..._Dstar0D_sstar_D0gD_sg_KspipiKs0K_phsp.dec | 155 + ...m_Dstar0D_sstar_D0gD_sg_KspipiKs0Km001.dec | 155 + ...m_Dstar0D_sstar_D0gD_sg_KspipiKs0Km010.dec | 155 + ...m_Dstar0D_sstar_D0gD_sg_KspipiKs0Km100.dec | 155 + ...Bm_Dstar0D_sstar_D0gD_sg_KspipiKstar0K.dec | 160 + ...tar0D_sstar_D0gD_sg_KspipiKstar0K_phsp.dec | 159 + ...star0D_sstar_D0gD_sg_KspipiKstar0Km001.dec | 159 + ...star0D_sstar_D0gD_sg_KspipiKstar0Km010.dec | 159 + ...star0D_sstar_D0gD_sg_KspipiKstar0Km100.dec | 159 + ...BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipi.dec | 156 + ...Dstar0D_sstar_D0gD_sg_Kspipiphipi_phsp.dec | 155 + ..._Dstar0D_sstar_D0gD_sg_Kspipiphipim001.dec | 155 + ..._Dstar0D_sstar_D0gD_sg_Kspipiphipim010.dec | 155 + ..._Dstar0D_sstar_D0gD_sg_Kspipiphipim100.dec | 155 + .../BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0K.dec | 180 + ..._Dstar0D_sstar_D0pi0D_sg_K3piKs0K_phsp.dec | 179 + ...m_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km001.dec | 179 + ...m_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km010.dec | 179 + ...m_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km100.dec | 179 + ...Bm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0K.dec | 174 + ...tar0D_sstar_D0pi0D_sg_K3piKstar0K_phsp.dec | 173 + ...star0D_sstar_D0pi0D_sg_K3piKstar0Km001.dec | 173 + ...star0D_sstar_D0pi0D_sg_K3piKstar0Km010.dec | 173 + ...star0D_sstar_D0pi0D_sg_K3piKstar0Km100.dec | 173 + ...BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipi.dec | 170 + ...Dstar0D_sstar_D0pi0D_sg_K3piphipi_phsp.dec | 169 + ..._Dstar0D_sstar_D0pi0D_sg_K3piphipim001.dec | 169 + ..._Dstar0D_sstar_D0pi0D_sg_K3piphipim010.dec | 169 + ..._Dstar0D_sstar_D0pi0D_sg_K3piphipim100.dec | 169 + .../BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0K.dec | 155 + ...m_Dstar0D_sstar_D0pi0D_sg_KpiKs0K_phsp.dec | 154 + ...Bm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km001.dec | 154 + ...Bm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km010.dec | 154 + ...Bm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km100.dec | 154 + ...pBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0K.dec | 149 + ...star0D_sstar_D0pi0D_sg_KpiKstar0K_phsp.dec | 148 + ...Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km001.dec | 148 + ...Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km010.dec | 148 + ...Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km100.dec | 148 + .../BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipi.dec | 145 + ..._Dstar0D_sstar_D0pi0D_sg_Kpiphipi_phsp.dec | 144 + ...m_Dstar0D_sstar_D0pi0D_sg_Kpiphipim001.dec | 144 + ...m_Dstar0D_sstar_D0pi0D_sg_Kpiphipim010.dec | 144 + ...m_Dstar0D_sstar_D0pi0D_sg_Kpiphipim100.dec | 144 + ...pBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0K.dec | 155 + ...star0D_sstar_D0pi0D_sg_Kpipi0Ks0K_phsp.dec | 154 + ...Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km001.dec | 154 + ...Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km010.dec | 154 + ...Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km100.dec | 154 + ..._Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0K.dec | 149 + ...r0D_sstar_D0pi0D_sg_Kpipi0Kstar0K_phsp.dec | 148 + ...ar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km001.dec | 148 + ...ar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km010.dec | 148 + ...ar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km100.dec | 148 + ...Bm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipi.dec | 145 + ...tar0D_sstar_D0pi0D_sg_Kpipi0phipi_phsp.dec | 144 + ...star0D_sstar_D0pi0D_sg_Kpipi0phipim001.dec | 144 + ...star0D_sstar_D0pi0D_sg_Kpipi0phipim010.dec | 144 + ...star0D_sstar_D0pi0D_sg_Kpipi0phipim100.dec | 144 + ...pBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0K.dec | 156 + ...star0D_sstar_D0pi0D_sg_KspipiKs0K_phsp.dec | 155 + ...Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km001.dec | 155 + ...Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km010.dec | 155 + ...Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km100.dec | 155 + ..._Dstar0D_sstar_D0pi0D_sg_KspipiKstar0K.dec | 160 + ...r0D_sstar_D0pi0D_sg_KspipiKstar0K_phsp.dec | 159 + ...ar0D_sstar_D0pi0D_sg_KspipiKstar0Km001.dec | 159 + ...ar0D_sstar_D0pi0D_sg_KspipiKstar0Km010.dec | 159 + ...ar0D_sstar_D0pi0D_sg_KspipiKstar0Km100.dec | 159 + ...Bm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipi.dec | 156 + ...tar0D_sstar_D0pi0D_sg_Kspipiphipi_phsp.dec | 155 + ...star0D_sstar_D0pi0D_sg_Kspipiphipim001.dec | 155 + ...star0D_sstar_D0pi0D_sg_Kspipiphipim010.dec | 155 + ...star0D_sstar_D0pi0D_sg_Kspipiphipim100.dec | 155 + .../BpBm_Dstar0Dch_D0gDch_K3piKpipi.dec | 161 + BaBar_2014/BpBm_Dstar0Dch_D0gDch_K3piKspi.dec | 172 + BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKpipi.dec | 136 + BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKspi.dec | 147 + .../BpBm_Dstar0Dch_D0gDch_Kpipi0Kpipi.dec | 136 + .../BpBm_Dstar0Dch_D0gDch_Kpipi0Kspi.dec | 148 + .../BpBm_Dstar0Dch_D0gDch_KspipiKpipi.dec | 147 + .../BpBm_Dstar0Dch_D0gDch_KspipiKspi.dec | 149 + .../BpBm_Dstar0Dch_D0pi0Dch_K3piKpipi.dec | 161 + .../BpBm_Dstar0Dch_D0pi0Dch_K3piKspi.dec | 172 + .../BpBm_Dstar0Dch_D0pi0Dch_KpiKpipi.dec | 136 + .../BpBm_Dstar0Dch_D0pi0Dch_KpiKspi.dec | 148 + .../BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kpipi.dec | 136 + .../BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kspi.dec | 148 + .../BpBm_Dstar0Dch_D0pi0Dch_KspipiKpipi.dec | 147 + .../BpBm_Dstar0Dch_D0pi0Dch_KspipiKspi.dec | 149 + BaBar_2014/BpBm_Dstar0Dm_D0g_KpiKpipi.dec | 102 + BaBar_2014/BpBm_Dstar0Ds_D0g_Kpi_phipi.dec | 107 + BaBar_2014/BpBm_Dstar0Dsm_DsKpimix.dec | 94 + BaBar_2014/BpBm_Dstar0Dsm_DsToPhiPi.dec | 58 + .../BpBm_Dstar0Dsstar_D0gDsg_To_Kpiphipi.dec | 111 + BaBar_2014/BpBm_Dstar0Dsstarm_DsToPhiPi.dec | 68 + BaBar_2014/BpBm_Dstar0Dstar_D0gD0p_Kpi.dec | 103 + .../BpBm_Dstar0Dstar_D0gD0pi_K3piK3pi.dec | 154 + .../BpBm_Dstar0Dstar_D0gD0pi_K3piKpi.dec | 148 + .../BpBm_Dstar0Dstar_D0gD0pi_K3piKpipi0.dec | 148 + .../BpBm_Dstar0Dstar_D0gD0pi_K3piKspipi.dec | 160 + .../BpBm_Dstar0Dstar_D0gD0pi_KpiK3pi.dec | 148 + .../BpBm_Dstar0Dstar_D0gD0pi_KpiKpi.dec | 123 + .../BpBm_Dstar0Dstar_D0gD0pi_KpiKpipi0.dec | 123 + .../BpBm_Dstar0Dstar_D0gD0pi_KpiKspipi.dec | 135 + .../BpBm_Dstar0Dstar_D0gD0pi_Kpipi0K3pi.dec | 148 + .../BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpi.dec | 123 + .../BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpipi0.dec | 123 + .../BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kspipi.dec | 135 + .../BpBm_Dstar0Dstar_D0gD0pi_KspipiK3pi.dec | 160 + .../BpBm_Dstar0Dstar_D0gD0pi_KspipiKpi.dec | 135 + .../BpBm_Dstar0Dstar_D0gD0pi_KspipiKpipi0.dec | 135 + .../BpBm_Dstar0Dstar_D0gD0pi_KspipiKspipi.dec | 136 + .../BpBm_Dstar0Dstar_D0pi0D0pi_K3piK3pi.dec | 154 + .../BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpi.dec | 148 + .../BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpipi0.dec | 148 + .../BpBm_Dstar0Dstar_D0pi0D0pi_K3piKspipi.dec | 160 + .../BpBm_Dstar0Dstar_D0pi0D0pi_KpiK3pi.dec | 148 + .../BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpi.dec | 123 + .../BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpipi0.dec | 123 + .../BpBm_Dstar0Dstar_D0pi0D0pi_KpiKspipi.dec | 135 + .../BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0K3pi.dec | 148 + .../BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpi.dec | 123 + ...pBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpipi0.dec | 123 + ...pBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kspipi.dec | 135 + .../BpBm_Dstar0Dstar_D0pi0D0pi_KspipiK3pi.dec | 160 + .../BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKpi.dec | 135 + ...pBm_Dstar0Dstar_D0pi0D0pi_KspipiKpipi0.dec | 135 + ...pBm_Dstar0Dstar_D0pi0D0pi_KspipiKspipi.dec | 136 + ...BpBm_Dstar0Dstar_D0pi0Dchpi0_K3piKpipi.dec | 148 + .../BpBm_Dstar0Dstar_D0pi0Dchpi0_KpiKpipi.dec | 123 + ...Bm_Dstar0Dstar_D0pi0Dchpi0_Kpipi0Kpipi.dec | 123 + ...Bm_Dstar0Dstar_D0pi0Dchpi0_KspipiKpipi.dec | 135 + BaBar_2014/BpBm_Dstar0K3pi_DminusK2pi_K0S.dec | 196 + BaBar_2014/BpBm_Dstar0K_CPminusCocktail.dec | 141 + BaBar_2014/BpBm_Dstar0K_CPplusCocktail.dec | 117 + BaBar_2014/BpBm_Dstar0K_D0CabibboNonCP.dec | 111 + .../BpBm_Dstar0K_D0mKsKK_Ksmpipi_PHSP.dec | 63 + .../BpBm_Dstar0K_D0mKsKpi_Ksmpipi_PHSP.dec | 65 + .../BpBm_Dstar0K_D0mKspipi_Ksmpipi_PHSP.dec | 63 + BaBar_2014/BpBm_Dstar0K_D0mpi0pipi_PHSP.dec | 56 + .../BpBm_Dstar0K_Dstar0mD0gamma_D0mK3pi.dec | 51 + .../BpBm_Dstar0K_Dstar0mD0gamma_D0mKK.dec | 51 + .../BpBm_Dstar0K_Dstar0mD0gamma_D0mKpi.dec | 51 + .../BpBm_Dstar0K_Dstar0mD0gamma_D0mKpipi0.dec | 50 + ...star0K_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec | 68 + ...r0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec | 72 + ...D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec | 78 + ...0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec | 73 + ...Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec | 73 + .../BpBm_Dstar0K_Dstar0mD0gamma_D0mpipi.dec | 51 + .../BpBm_Dstar0K_Dstar0mD0pi0_D0mK3pi.dec | 51 + .../BpBm_Dstar0K_Dstar0mD0pi0_D0mKK.dec | 51 + .../BpBm_Dstar0K_Dstar0mD0pi0_D0mKpi.dec | 51 + .../BpBm_Dstar0K_Dstar0mD0pi0_D0mKpipi0.dec | 50 + ..._Dstar0K_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec | 68 + ...tar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec | 72 + ...D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec | 78 + ...ar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec | 73 + ...K_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec | 73 + .../BpBm_Dstar0K_Dstar0mD0pi0_D0mpipi.dec | 51 + BaBar_2014/BpBm_Dstar0Kpi0_D0CP.dec | 197 + BaBar_2014/BpBm_Dstar0Kpi0_D0NonCP.dec | 160 + .../BpBm_Dstar0Kpipi0_DminusK2pi_K0S.dec | 196 + BaBar_2014/BpBm_Dstar0Krho0_D0CP.dec | 197 + BaBar_2014/BpBm_Dstar0Krho0_D0NonCP.dec | 160 + BaBar_2014/BpBm_Dstar0Kstar.dec | 73 + BaBar_2014/BpBm_Dstar0Kstar_00.dec | 77 + BaBar_2014/BpBm_Dstar0Kstar_11.dec | 77 + .../BpBm_Dstar0Kstar_D0CabibboNonCP.dec | 111 + BaBar_2014/BpBm_Dstar0Kstar_D0mCPp.dec | 82 + BaBar_2014/BpBm_Dstar0Kstar_D0mpipimKK.dec | 84 + BaBar_2014/BpBm_Dstar0Kstar_DrhoHELAMP.dec | 148 + ...Bm_Dstar0Kstar_ln_D0mKsKK_Ksmpipi_PHSP.dec | 62 + ...m_Dstar0Kstar_ln_D0mKsKpi_Ksmpipi_PHSP.dec | 64 + ..._Dstar0Kstar_ln_D0mKspipi_Ksmpipi_PHSP.dec | 62 + .../BpBm_Dstar0Kstar_ln_D0mpi0pipi_PHSP.dec | 57 + ...Bm_Dstar0Kstar_tr_D0mKsKK_Ksmpipi_PHSP.dec | 62 + ...m_Dstar0Kstar_tr_D0mKsKpi_Ksmpipi_PHSP.dec | 64 + ..._Dstar0Kstar_tr_D0mKspipi_Ksmpipi_PHSP.dec | 62 + .../BpBm_Dstar0Kstar_tr_D0mpi0pipi_PHSP.dec | 56 + BaBar_2014/BpBm_Dstar0_3pi_pi0.dec | 136 + BaBar_2014/BpBm_Dstar0_omega_pi.dec | 141 + .../BpBm_Dstar0barK3pi_Ds1Dstar0K_Kpi.dec | 219 + .../BpBm_Dstar0barKpi_Ds1Dstar0K_K3pi.dec | 219 + .../BpBm_Dstar0barKpi_Ds1Dstar0K_Kpi.dec | 219 + .../BpBm_Dstar0barKpi_Ds1Dstar0K_Kpipi0.dec | 219 + .../BpBm_Dstar0barKpipi0_Ds1Dstar0K_Kpi.dec | 219 + BaBar_2014/BpBm_Dstar0bar_Kp.dec | 60 + .../BpBm_Dstar0mD0mmKpimmpi0mpi_Xclnu.dec | 110 + .../BpBm_Dstar0mD0mmKpimmpi0mpi_Xulnu.dec | 189 + BaBar_2014/BpBm_Dstar0pi_D0CabibboNonCP.dec | 111 + .../BpBm_Dstar0pi_Dstar0mD0gamma_D0mK3pi.dec | 51 + .../BpBm_Dstar0pi_Dstar0mD0gamma_D0mKK.dec | 51 + .../BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpi.dec | 51 + ...BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpipi0.dec | 51 + ...tar0pi_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec | 68 + ...r0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec | 72 + ...D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec | 79 + ...0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec | 74 + ...Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec | 74 + .../BpBm_Dstar0pi_Dstar0mD0gamma_D0mpipi.dec | 51 + .../BpBm_Dstar0pi_Dstar0mD0pi0_D0mK3pi.dec | 51 + .../BpBm_Dstar0pi_Dstar0mD0pi0_D0mKK.dec | 51 + .../BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpi.dec | 51 + .../BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpipi0.dec | 50 + ...Dstar0pi_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec | 68 + ...tar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec | 72 + ...D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec | 79 + ...ar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec | 74 + ...i_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec | 74 + .../BpBm_Dstar0pi_Dstar0mD0pi0_D0mpipi.dec | 51 + .../BpBm_Dstar0pi_DstarmD0gammamD0mKspi0.dec | 52 + .../BpBm_Dstar0pi_DstarmD0gammamD0mKspipi.dec | 52 + .../BpBm_Dstar0pi_DstarmD0pimD0mKspi0.dec | 53 + .../BpBm_Dstar0pi_DstarmD0pimD0mKspipi.dec | 53 + BaBar_2014/BpBm_Dstar0pip.dec | 32 + BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K2pi.dec | 48 + BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K3pi.dec | 49 + BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Kpi.dec | 48 + BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Ks2pi.dec | 64 + BaBar_2014/BpBm_Dstar0rho_D0CabibboNonCP.dec | 111 + BaBar_2014/BpBm_DstarD0_D0p_Kpi.dec | 93 + BaBar_2014/BpBm_DstarD0_D0piD0_K3piK3pi.dec | 167 + BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpi.dec | 161 + BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpipi0.dec | 161 + BaBar_2014/BpBm_DstarD0_D0piD0_K3piKspipi.dec | 171 + BaBar_2014/BpBm_DstarD0_D0piD0_KpiK3pi.dec | 161 + BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpi.dec | 136 + BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpipi0.dec | 136 + BaBar_2014/BpBm_DstarD0_D0piD0_KpiKspipi.dec | 146 + BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0K3pi.dec | 161 + BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kpi.dec | 136 + .../BpBm_DstarD0_D0piD0_Kpipi0Kpipi0.dec | 136 + .../BpBm_DstarD0_D0piD0_Kpipi0Kspipi.dec | 146 + BaBar_2014/BpBm_DstarD0_D0piD0_KspipiK3pi.dec | 171 + BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKpi.dec | 146 + .../BpBm_DstarD0_D0piD0_KspipiKpipi0.dec | 146 + .../BpBm_DstarD0_D0piD0_KspipiKspipi.dec | 147 + .../BpBm_DstarD0_Dchpi0D0_KpipiK3pi.dec | 161 + BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKpi.dec | 136 + .../BpBm_DstarD0_Dchpi0D0_KpipiKpipi0.dec | 136 + .../BpBm_DstarD0_Dchpi0D0_KpipiKspipi.dec | 146 + BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiK3pi.dec | 172 + BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKpi.dec | 147 + .../BpBm_DstarD0_Dchpi0D0_KspiKpipi0.dec | 147 + .../BpBm_DstarD0_Dchpi0D0_KspiKspipi.dec | 148 + BaBar_2014/BpBm_DstarD_exclusive.dec | 224 + BaBar_2014/BpBm_DstarDstar0_exclusive.dec | 225 + BaBar_2014/BpBm_DstarDstar0_exclusive_mod.dec | 213 + BaBar_2014/BpBm_DstarKstar0.dec | 150 + .../BpBm_Dstarenubar_DstarmD0gamma_D0mKpi.dec | 51 + ...Bm_Dstarenubar_DstarmD0gamma_D0mKpipi0.dec | 51 + .../BpBm_Dstarenubar_DstarmD0pi_D0mKpi.dec | 51 + .../BpBm_Dstarenubar_DstarmD0pi_D0mKpipi0.dec | 51 + BaBar_2014/BpBm_Dstarlnu_X.dec | 30 + BaBar_2014/BpBm_Dstarma0p.dec | 144 + ...BpBm_Dstarmunubar_DstarmD0gamma_D0mKpi.dec | 51 + ...m_Dstarmunubar_DstarmD0gamma_D0mKpipi0.dec | 51 + .../BpBm_Dstarmunubar_DstarmD0pi_D0mKpi.dec | 51 + ...BpBm_Dstarmunubar_DstarmD0pi_D0mKpipi0.dec | 51 + BaBar_2014/BpBm_DstarpKs.dec | 324 + BaBar_2014/BpBm_Dstarpilnu_KPi.dec | 56 + BaBar_2014/BpBm_Dstarpipi_D0Kpi_nonres.dec | 50 + BaBar_2014/BpBm_Dstarpipi_nonres.dec | 121 + ...Bm_DstarplusK3pi_DstarminusK2pi_Kminus.dec | 205 + ...Bm_DstarplusK3pi_DstarminusK3pi_Kminus.dec | 197 + ..._DstarplusK3pi_DstarminusKpipi0_Kminus.dec | 197 + ...pBm_DstarplusKpi_DstarminusK2pi_Kminus.dec | 205 + ...pBm_DstarplusKpi_DstarminusK3pi_Kminus.dec | 64 + ...BpBm_DstarplusKpi_DstarminusKpi_Kminus.dec | 43 + ...m_DstarplusKpi_DstarminusKpipi0_Kminus.dec | 43 + .../BpBm_DstarplusKpi_DstarplusKpi_Kminus.dec | 196 + ..._DstarplusKpipi0_DstarminusK2pi_Kminus.dec | 205 + ...starplusKpipi0_DstarminusKpipi0_Kminus.dec | 197 + BaBar_2014/BpBm_Dstarstarlnu.dec | 164 + BaBar_2014/BpBm_Dstr0lnu_D0Kpi.dec | 59 + BaBar_2014/BpBm_Dstr0lnu_D0pi0_Kpi.dec | 58 + BaBar_2014/BpBm_Dstr0lnu_Kpi.dec | 59 + BaBar_2014/BpBm_Dstr0lnu_Kpipi.dec | 59 + BaBar_2014/BpBm_Dstr0lnu_Kpipipi.dec | 59 + BaBar_2014/BpBm_Dstr0lnu_Kspipi.dec | 63 + BaBar_2014/BpBm_Dstr0pi0lnu_D0Kpi.dec | 83 + BaBar_2014/BpBm_HHHHH.dec | 55 + BaBar_2014/BpBm_HHHPP.dec | 43 + BaBar_2014/BpBm_JPsiK_AllJpsi.dec | 34 + BaBar_2014/BpBm_JpsiD.dec | 37 + BaBar_2014/BpBm_JpsiD_Kpi.dec | 51 + BaBar_2014/BpBm_JpsiDpi.dec | 39 + BaBar_2014/BpBm_JpsiDstar.dec | 38 + BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_l.dec | 63 + BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_t.dec | 63 + BaBar_2014/BpBm_JpsiDstar_l.dec | 50 + BaBar_2014/BpBm_JpsiDstar_t.dec | 50 + BaBar_2014/BpBm_JpsiEtaKm.dec | 45 + BaBar_2014/BpBm_JpsiEtaPKm.dec | 53 + BaBar_2014/BpBm_JpsiK.dec | 38 + BaBar_2014/BpBm_JpsiK_ppbar.dec | 37 + BaBar_2014/BpBm_JpsiKstar.dec | 71 + BaBar_2014/BpBm_JpsiKstar_KLpi.dec | 62 + BaBar_2014/BpBm_JpsiKstar_KLpi_RunIPol.dec | 65 + BaBar_2014/BpBm_JpsiKstar_KS.dec | 74 + BaBar_2014/BpBm_JpsiKstar_KS00.dec | 74 + BaBar_2014/BpBm_JpsiKstar_KS_RunIPol.dec | 71 + BaBar_2014/BpBm_JpsiKstar_Km.dec | 68 + BaBar_2014/BpBm_JpsiKstar_Km_RunIPol.dec | 65 + .../BpBm_JpsiKstar_KpPi0_RunIpIIPol.dec | 63 + .../BpBm_JpsiKstar_KsPip_RunIpIIPol.dec | 69 + BaBar_2014/BpBm_JpsiKstar_ppbar.dec | 76 + BaBar_2014/BpBm_JpsiPhiKm.dec | 40 + BaBar_2014/BpBm_JpsiPi.dec | 38 + BaBar_2014/BpBm_JpsiPiPi0_nonres.dec | 75 + BaBar_2014/BpBm_JpsiRho.dec | 99 + BaBar_2014/BpBm_JpsiRho_0polarisation.dec | 99 + BaBar_2014/BpBm_JpsiRho_Kstarpolarisation.dec | 100 + BaBar_2014/BpBm_Jpsi_KstHR_lplmKppippim.dec | 155 + BaBar_2014/BpBm_Jpsim3pimnoint_Kp.dec | 41 + BaBar_2014/BpBm_Jpsim5pimnoint_Kp.dec | 92 + BaBar_2014/BpBm_Jpsim7pimnoint_Kp.dec | 46 + BaBar_2014/BpBm_JpsipBaryon.dec | 51 + BaBar_2014/BpBm_JpsipSigma.dec | 53 + BaBar_2014/BpBm_Jpsiplambda.dec | 46 + BaBar_2014/BpBm_K0Lrho.dec | 44 + BaBar_2014/BpBm_K0srho.dec | 44 + BaBar_2014/BpBm_K0srho_kstopi0pi0.dec | 56 + BaBar_2014/BpBm_K2K0s.dec | 34 + BaBar_2014/BpBm_K2pi.dec | 28 + BaBar_2014/BpBm_K2pi0.dec | 28 + BaBar_2014/BpBm_KK0pi0.dec | 29 + BaBar_2014/BpBm_KKpi_SMsupp.dec | 28 + BaBar_2014/BpBm_KPiPiPi0.dec | 28 + BaBar_2014/BpBm_KSK.dec | 34 + BaBar_2014/BpBm_KSpi.dec | 38 + BaBar_2014/BpBm_KSpi_00.dec | 36 + BaBar_2014/BpBm_KStarRho.dec | 58 + BaBar_2014/BpBm_KStf0_f0topi0pi0.dec | 32 + BaBar_2014/BpBm_KStp_1410_pi0.dec | 23 + BaBar_2014/BpBm_KStp_1680_pi0.dec | 23 + BaBar_2014/BpBm_KStp_spin0_1430_pi0.dec | 23 + BaBar_2014/BpBm_KStp_spin2_1430_pi0.dec | 23 + BaBar_2014/BpBm_Kchi_c0_pipi.dec | 35 + BaBar_2014/BpBm_Kee_Ali.dec | 34 + BaBar_2014/BpBm_Kee_Ball.dec | 34 + BaBar_2014/BpBm_Keta1295_KKpipl.dec | 44 + BaBar_2014/BpBm_Keta1295_KKpizr.dec | 38 + BaBar_2014/BpBm_Keta1295_etapipi.dec | 43 + BaBar_2014/BpBm_Keta_etaDalitz.dec | 32 + BaBar_2014/BpBm_Kf0.dec | 56 + BaBar_2014/BpBm_Kf0_1370.dec | 52 + BaBar_2014/BpBm_Kf1285_KKpipl.dec | 44 + BaBar_2014/BpBm_Kf1285_KKpizr.dec | 38 + BaBar_2014/BpBm_Kf1285_etapipi.dec | 43 + BaBar_2014/BpBm_Kf1525_K0K0.dec | 43 + BaBar_2014/BpBm_Kf1525_KpKm.dec | 43 + BaBar_2014/BpBm_Kf2.dec | 34 + BaBar_2014/BpBm_Kmumu_Ali.dec | 34 + BaBar_2014/BpBm_Kmumu_Ball.dec | 34 + BaBar_2014/BpBm_KpKmKstar_KSpip.dec | 48 + BaBar_2014/BpBm_KpKmKstar_Kppi0.dec | 42 + BaBar_2014/BpBm_KpKpKm_intf1.dec | 108 + BaBar_2014/BpBm_KpKpKstar_KSpim.dec | 48 + BaBar_2014/BpBm_KpKpKstar_Kmpi0.dec | 42 + BaBar_2014/BpBm_Kpemmup_PHSP.dec | 34 + BaBar_2014/BpBm_Kpepmum_PHSP.dec | 34 + BaBar_2014/BpBm_Kpf0_f0topi0pi0.dec | 26 + BaBar_2014/BpBm_Kpf2_f2topi0pi0.dec | 21 + BaBar_2014/BpBm_Kpgg_PHSP.dec | 34 + BaBar_2014/BpBm_Kpi0.dec | 33 + BaBar_2014/BpBm_Kpi0_pi0Dalitz.dec | 32 + BaBar_2014/BpBm_Kpipi_SMsupp.dec | 28 + BaBar_2014/BpBm_Kpll.dec | 40 + BaBar_2014/BpBm_Kpnunu.dec | 38 + BaBar_2014/BpBm_KppipKm_intf1.dec | 135 + BaBar_2014/BpBm_Kppippim_intf1.dec | 155 + BaBar_2014/BpBm_Kppippim_intf2.dec | 155 + BaBar_2014/BpBm_Kppippim_intf3.dec | 156 + BaBar_2014/BpBm_Krho.dec | 33 + BaBar_2014/BpBm_Kst0Kst0H_KPi_KPi.dec | 51 + BaBar_2014/BpBm_Kst0Rho0H_KPi.dec | 47 + BaBar_2014/BpBm_Kst0RhoPi0_KPi.dec | 42 + BaBar_2014/BpBm_KstKst0Pi0_KPi0_KPi.dec | 52 + BaBar_2014/BpBm_KstKstH_KPi0_KPi0.dec | 46 + BaBar_2014/BpBm_KstRho0Pi0_KPi0.dec | 40 + BaBar_2014/BpBm_KstRhoH_KPi0.dec | 50 + BaBar_2014/BpBm_KstRhomPip_KPi0.dec | 37 + BaBar_2014/BpBm_KstRhopPim_KPi0.dec | 40 + BaBar_2014/BpBm_Kst_1273_gamma.dec | 29 + BaBar_2014/BpBm_Kst_1402_gamma.dec | 29 + BaBar_2014/BpBm_Kst_1430_gamma.dec | 28 + BaBar_2014/BpBm_Kstar0K0sK.dec | 43 + .../BpBm_Kstar0_1430_0_pip_Kstar0mKppim.dec | 34 + .../BpBm_Kstar0barK_Kstar0barK0spi0.dec | 43 + BaBar_2014/BpBm_Kstar0p_ee_Ball.dec | 48 + BaBar_2014/BpBm_Kstar0p_emmup_PHSP.dec | 48 + BaBar_2014/BpBm_Kstar0p_epmum_PHSP.dec | 48 + BaBar_2014/BpBm_Kstar0p_mumu_Ball.dec | 48 + BaBar_2014/BpBm_Kstar0pi_Kstar0K0pi0.dec | 43 + .../BpBm_Kstar1410_0_pip_Kstar1410mKpi.dec | 34 + .../BpBm_Kstar1680_0_pip_Kstar1680mKpi.dec | 35 + .../BpBm_Kstar2_1430_0_pip_Kstar2mKppim.dec | 34 + BaBar_2014/BpBm_KstarK.dec | 42 + BaBar_2014/BpBm_KstarK0s_KstarK0spi.dec | 44 + BaBar_2014/BpBm_KstarK0s_KstarKpi0.dec | 44 + BaBar_2014/BpBm_KstarK_1270.dec | 48 + BaBar_2014/BpBm_KstarK_1430_spin0.dec | 37 + BaBar_2014/BpBm_KstarK_1430_spin2.dec | 38 + BaBar_2014/BpBm_KstarK_1680.dec | 38 + BaBar_2014/BpBm_KstarPi0p_ee_Ball.dec | 33 + BaBar_2014/BpBm_KstarPi0p_emmup_PHSP.dec | 33 + BaBar_2014/BpBm_KstarPi0p_epmum_PHSP.dec | 33 + BaBar_2014/BpBm_KstarPi0p_mumu_Ball.dec | 33 + BaBar_2014/BpBm_Kstar_1410_gamma.dec | 29 + BaBar_2014/BpBm_Kstar_1680_gamma.dec | 29 + BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim.dec | 65 + BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_ln.dec | 65 + BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_tr.dec | 65 + BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim.dec | 60 + BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_ln.dec | 60 + BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_tr.dec | 60 + BaBar_2014/BpBm_Kstaree_Ali.dec | 33 + BaBar_2014/BpBm_Kstaree_KS0pi_Ali.dec | 48 + BaBar_2014/BpBm_Kstaree_Kpi0_Ali.dec | 33 + BaBar_2014/BpBm_Kstareta_etaDalitz.dec | 47 + BaBar_2014/BpBm_Kstarf0_KSpip.dec | 78 + BaBar_2014/BpBm_Kstarf0_KSpipKpKm.dec | 60 + BaBar_2014/BpBm_Kstarf0_Kppi0.dec | 62 + BaBar_2014/BpBm_Kstarf0_Kppi0KpKm.dec | 55 + BaBar_2014/BpBm_Kstargamma.dec | 31 + BaBar_2014/BpBm_Kstargamma_Kpi0.dec | 43 + BaBar_2014/BpBm_Kstargamma_Kspi.dec | 61 + BaBar_2014/BpBm_Kstarmumu_Ali.dec | 33 + BaBar_2014/BpBm_Kstarmumu_KS0pi_Ali.dec | 48 + BaBar_2014/BpBm_Kstarmumu_Kpi0_Ali.dec | 33 + BaBar_2014/BpBm_KstarpKs.dec | 44 + BaBar_2014/BpBm_KstarpKsKs.dec | 44 + BaBar_2014/BpBm_Kstarpf0_Kppi0.dec | 47 + BaBar_2014/BpBm_Kstarpi.dec | 38 + BaBar_2014/BpBm_Kstarpi0_KstarK0spi.dec | 44 + BaBar_2014/BpBm_Kstarpi0_KstarKpi0.dec | 44 + BaBar_2014/BpBm_Kstarpi0_pi0Dalitz.dec | 47 + BaBar_2014/BpBm_Kstarpi_1270.dec | 36 + BaBar_2014/BpBm_Kstarpi_1400.dec | 36 + BaBar_2014/BpBm_Kstarpi_1430_spin0.dec | 36 + BaBar_2014/BpBm_Kstarpi_1430_spin2.dec | 36 + BaBar_2014/BpBm_Kstarpi_1680.dec | 36 + BaBar_2014/BpBm_Kstarpnunu.dec | 37 + BaBar_2014/BpBm_Kstarrho_1680_Kpi_ln.dec | 68 + BaBar_2014/BpBm_Kstgamma.dec | 63 + BaBar_2014/BpBm_Kstgamma_KL.dec | 52 + BaBar_2014/BpBm_OmegaPipPi0_PiPiPi0.dec | 33 + BaBar_2014/BpBm_PiPiPiPi0.dec | 28 + BaBar_2014/BpBm_Pif0.dec | 35 + BaBar_2014/BpBm_Pipnunu.dec | 35 + BaBar_2014/BpBm_Psi2sK.dec | 48 + BaBar_2014/BpBm_Psi2sK_All.dec | 34 + BaBar_2014/BpBm_Psi2sK_Psi2stoJpsiPi0Pi0.dec | 43 + BaBar_2014/BpBm_Psi2sKstar_K.dec | 81 + BaBar_2014/BpBm_Psi2sKstar_KS.dec | 85 + .../BpBm_Psi2sKstar_KpPi0_RunIpIIPol.dec | 69 + .../BpBm_Psi2sKstar_KsPip_RunIpIIPol.dec | 77 + BaBar_2014/BpBm_Psi3770D0D0KpiK3pi_K.dec | 126 + BaBar_2014/BpBm_Psi3770D0D0KpiKpi_K.dec | 126 + BaBar_2014/BpBm_Psi3770D0D0KpiKpipi0_K.dec | 126 + BaBar_2014/BpBm_Psi3770DpDm_K.dec | 130 + BaBar_2014/BpBm_Rho0Rho0K.dec | 29 + BaBar_2014/BpBm_Rho0Rho0Pi.dec | 31 + BaBar_2014/BpBm_RhoRhoK.dec | 32 + BaBar_2014/BpBm_RhopRhoppim.dec | 26 + BaBar_2014/BpBm_Rhopf0.dec | 41 + BaBar_2014/BpBm_Rhoppippimpi0.dec | 26 + BaBar_2014/BpBm_V0PPP.dec | 92 + BaBar_2014/BpBm_VpPPP.dec | 72 + BaBar_2014/BpBm_XdugammaExp480.dec | 78 + BaBar_2014/BpBm_Xenu_Yenu.dec | 203 + BaBar_2014/BpBm_Xenu_Ymunu.dec | 204 + BaBar_2014/BpBm_Xenu_noSLemu.dec | 576 ++ BaBar_2014/BpBm_Xmunu_Ymunu.dec | 203 + BaBar_2014/BpBm_Xmunu_noSLemu.dec | 576 ++ BaBar_2014/BpBm_Xsee.dec | 59 + .../BpBm_Xsee_Ali02_mb480_pf410_JetSet02.dec | 66 + BaBar_2014/BpBm_Xsee_pf410.dec | 66 + ...m_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec | 63 + ...m_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec | 63 + .../BpBm_Xsgamma_Kagan99_mb465_JetSet02.dec | 63 + .../BpBm_Xsgamma_Kagan99_mb470_JetSet02.dec | 63 + .../BpBm_Xsgamma_Kagan99_mb475_JetSet02.dec | 63 + .../BpBm_Xsgamma_Kagan99_mb480_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec | 63 + ...mma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec | 63 + .../BpBm_Xsgamma_Kagan99_mb485_JetSet02.dec | 63 + .../BpBm_Xsgamma_Kagan99_mb490_JetSet02.dec | 63 + .../BpBm_Xsgamma_Kagan99_mb495_JetSet02.dec | 63 + BaBar_2014/BpBm_Xsmumu.dec | 59 + ...BpBm_Xsmumu_Ali02_mb480_pf410_JetSet02.dec | 66 + BaBar_2014/BpBm_Xsmumu_pf410.dec | 66 + BaBar_2014/BpBm_Xstautau.dec | 59 + BaBar_2014/BpBm_Xstautau_pf410.dec | 60 + BaBar_2014/BpBm_Xsugamma.dec | 60 + BaBar_2014/BpBm_XsugammaAli.dec | 60 + BaBar_2014/BpBm_XsugammaExp465.dec | 60 + BaBar_2014/BpBm_XsugammaExp470.dec | 60 + BaBar_2014/BpBm_XsugammaExp475.dec | 60 + BaBar_2014/BpBm_XsugammaExp480.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_1.0to1.2.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_1.2to1.4.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_1.4to1.6.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_1.6to1.8.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_1.8to2.0.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_2.0to2.2.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_2.2to2.4.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_2.4to2.6.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_2.6to2.8.dec | 60 + BaBar_2014/BpBm_XsugammaExp480_2.8to3.0.dec | 60 + BaBar_2014/BpBm_XsugammaExp485.dec | 60 + BaBar_2014/BpBm_XsugammaExp490.dec | 60 + BaBar_2014/BpBm_XsugammaExp495.dec | 60 + .../BpBm_XsugammaFlatEGamma1_6To2_7.dec | 60 + .../BpBm_XsugammaFlatEGamma1_7To1_8.dec | 60 + .../BpBm_XsugammaFlatEGamma1_8To1_9.dec | 60 + .../BpBm_XsugammaFlatEGamma1_9To2_0.dec | 60 + .../BpBm_XsugammaFlatEGamma2_0To2_1.dec | 60 + .../BpBm_XsugammaFlatEGamma2_1To2_2.dec | 60 + .../BpBm_XsugammaFlatEGamma2_2To2_3.dec | 60 + .../BpBm_XsugammaFlatEGamma2_3To2_4.dec | 60 + .../BpBm_XsugammaFlatEGamma2_4To2_5.dec | 60 + .../BpBm_XsugammaFlatEGamma2_5To2_6.dec | 60 + .../BpBm_XsugammaFlatEGamma2_6To2_7.dec | 60 + BaBar_2014/BpBm_XtoJpsiGammaK.dec | 47 + BaBar_2014/BpBm_XtoJpsiGammaKstar_K.dec | 56 + BaBar_2014/BpBm_XtoJpsiGammaKstar_KS.dec | 61 + BaBar_2014/BpBm_XtoJpsiPi0K.dec | 48 + BaBar_2014/BpBm_a00Kp_etato3pi.dec | 39 + BaBar_2014/BpBm_a00Kp_etatogg.dec | 39 + BaBar_2014/BpBm_a00pip_etato3pi.dec | 39 + BaBar_2014/BpBm_a00pip_etatogg.dec | 39 + BaBar_2014/BpBm_a0pks.dec | 54 + BaBar_2014/BpBm_a0pks_etato3pi.dec | 51 + BaBar_2014/BpBm_a0pkstar0.dec | 59 + BaBar_2014/BpBm_a0ppi0_etato3pi.dec | 43 + BaBar_2014/BpBm_a0ppi0_etatogg.dec | 43 + BaBar_2014/BpBm_a0prho0.dec | 54 + BaBar_2014/BpBm_a10K_RhoPi.dec | 27 + BaBar_2014/BpBm_a10Pi_RhoPi.dec | 27 + BaBar_2014/BpBm_a10rhop_ln.dec | 38 + BaBar_2014/BpBm_a10rhop_tr.dec | 38 + BaBar_2014/BpBm_a1Pi0_Rho0Pi.dec | 46 + BaBar_2014/BpBm_a1_D0mK3pimKs2pi.dec | 111 + BaBar_2014/BpBm_a1_D0mKpimKpipi0.dec | 49 + .../BpBm_a1_Dstar0mpi0D0mK3pimKs2pi.dec | 121 + .../BpBm_a1_Dstar0mpi0D0mKpimKpipi0.dec | 59 + BaBar_2014/BpBm_a1f0.dec | 38 + BaBar_2014/BpBm_a1pK0s.dec | 32 + BaBar_2014/BpBm_a1pK0s_rho0pip.dec | 50 + BaBar_2014/BpBm_a1pK0s_rhoppi0.dec | 50 + BaBar_2014/BpBm_a1pi0.dec | 31 + BaBar_2014/BpBm_a1pomega_rho0pipomega_ln.dec | 39 + BaBar_2014/BpBm_a1pomega_rhoppi0omega_ln.dec | 39 + BaBar_2014/BpBm_a1ppi0.dec | 45 + BaBar_2014/BpBm_a1ppi0_rhoppi0.dec | 39 + BaBar_2014/BpBm_a1prho0_rho0piprho0_ln.dec | 39 + BaBar_2014/BpBm_a1prho0_rho0piprho0_tr.dec | 39 + BaBar_2014/BpBm_a1prho0_rhoppi0rho0_ln.dec | 39 + BaBar_2014/BpBm_a1prho0_rhoppi0rho0_tr.dec | 39 + BaBar_2014/BpBm_enu.dec | 35 + BaBar_2014/BpBm_enugamma.dec | 29 + BaBar_2014/BpBm_enugamma_KM.dec | 33 + BaBar_2014/BpBm_enugamma_KM_PH.dec | 33 + BaBar_2014/BpBm_enugamma_KM_PH_fa0.dec | 33 + BaBar_2014/BpBm_epepKm_PHSP.dec | 32 + BaBar_2014/BpBm_epeppim_PHSP.dec | 32 + BaBar_2014/BpBm_epmupKm_PHSP.dec | 32 + BaBar_2014/BpBm_epmuppim_PHSP.dec | 32 + BaBar_2014/BpBm_etac2K2piK.dec | 34 + BaBar_2014/BpBm_etac2phiK.dec | 42 + BaBar_2014/BpBm_etac2rhoK.dec | 39 + BaBar_2014/BpBm_etac4KK.dec | 41 + BaBar_2014/BpBm_etac4piK.dec | 35 + BaBar_2014/BpBm_etacFourKK.dec | 42 + BaBar_2014/BpBm_etacKKpi0K.dec | 35 + BaBar_2014/BpBm_etacKSKpiK.dec | 40 + BaBar_2014/BpBm_etacKstarKpiK.dec | 45 + BaBar_2014/BpBm_etaceta2piK.dec | 38 + BaBar_2014/BpBm_etalnu_FLATQ2.dec | 38 + BaBar_2014/BpBm_etalnu_ISGW2.dec | 35 + BaBar_2014/BpBm_etalnu_phsp.dec | 40 + BaBar_2014/BpBm_etam3pi_K.dec | 56 + BaBar_2014/BpBm_etam3pi_KstmK0pi.dec | 58 + BaBar_2014/BpBm_etam3pi_KstmK0pim2pi0.dec | 61 + BaBar_2014/BpBm_etam3pi_KstmKpi0.dec | 53 + BaBar_2014/BpBm_etam3pi_pi.dec | 56 + BaBar_2014/BpBm_etam3pi_rhompipi0.dec | 45 + BaBar_2014/BpBm_etamgg_K.dec | 56 + BaBar_2014/BpBm_etamgg_KstmK0pi.dec | 57 + BaBar_2014/BpBm_etamgg_KstmK0pim2pi0.dec | 60 + BaBar_2014/BpBm_etamgg_KstmKpi0.dec | 52 + BaBar_2014/BpBm_etamgg_pi.dec | 56 + BaBar_2014/BpBm_etamgg_rhompipi0.dec | 45 + BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kpi0.dec | 59 + BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kspi.dec | 65 + .../BpBm_etapKstar_eta2pi_gg_Kspi_2pi0.dec | 65 + BaBar_2014/BpBm_etapKstar_rhog_Kpi0.dec | 57 + BaBar_2014/BpBm_etapKstar_rhog_Kspi.dec | 63 + BaBar_2014/BpBm_etapKstar_rhog_Kspi_2pi0.dec | 63 + BaBar_2014/BpBm_etaplnu_FLATQ2.dec | 38 + BaBar_2014/BpBm_etapm5pi_K.dec | 61 + BaBar_2014/BpBm_etapm5pi_pi.dec | 61 + BaBar_2014/BpBm_etapmgg2pi_K.dec | 60 + BaBar_2014/BpBm_etapmgg2pi_pi.dec | 60 + BaBar_2014/BpBm_etapmrho0g_K.dec | 64 + BaBar_2014/BpBm_etapmrho0g_pi.dec | 62 + BaBar_2014/BpBm_etaprhoc_eta2pi_gg_2pi.dec | 59 + BaBar_2014/BpBm_etaprhoc_rhog_2pi.dec | 58 + BaBar_2014/BpBm_f01370Kp_f0pipi.dec | 50 + BaBar_2014/BpBm_f0Kp_f0mpipi.dec | 55 + BaBar_2014/BpBm_f0pi_f0topipi.dec | 49 + BaBar_2014/BpBm_f2Kp_f2mpipi.dec | 40 + BaBar_2014/BpBm_generic.dec | 16 + BaBar_2014/BpBm_genericKstar_ee_Ball.dec | 33 + BaBar_2014/BpBm_genericKstar_mumu_Ball.dec | 33 + BaBar_2014/BpBm_kkkkk.dec | 37 + BaBar_2014/BpBm_lambdalambdak.dec | 36 + BaBar_2014/BpBm_lambdalambdapi.dec | 36 + BaBar_2014/BpBm_lambdapbargamma.dec | 28 + BaBar_2014/BpBm_lambdaproton.dec | 38 + BaBar_2014/BpBm_lnugamma.dec | 31 + BaBar_2014/BpBm_munu.dec | 34 + BaBar_2014/BpBm_munugamma.dec | 29 + BaBar_2014/BpBm_munugamma_KM.dec | 33 + BaBar_2014/BpBm_munugamma_KM_PH.dec | 33 + BaBar_2014/BpBm_munugamma_KM_PH_fa0.dec | 33 + BaBar_2014/BpBm_mupmupKm_PHSP.dec | 32 + BaBar_2014/BpBm_mupmuppim_PHSP.dec | 32 + BaBar_2014/BpBm_noSLemu_noSLemu.dec | 575 ++ BaBar_2014/BpBm_omegaK.dec | 46 + BaBar_2014/BpBm_omegaKstarp_KSpip.dec | 59 + BaBar_2014/BpBm_omegaKstarp_KSpip_ln.dec | 59 + BaBar_2014/BpBm_omegaKstarp_KSpip_tr.dec | 59 + BaBar_2014/BpBm_omegaKstarp_Kppi0.dec | 57 + BaBar_2014/BpBm_omegaKstarp_Kppi0_ln.dec | 57 + BaBar_2014/BpBm_omegaKstarp_Kppi0_tr.dec | 57 + BaBar_2014/BpBm_omegaRhop_ln.dec | 57 + BaBar_2014/BpBm_omegaRhop_tr.dec | 57 + BaBar_2014/BpBm_omegalnu.dec | 36 + BaBar_2014/BpBm_omegalnu_FLATQ2.dec | 36 + BaBar_2014/BpBm_omegalnu_lcsr.dec | 36 + BaBar_2014/BpBm_omegalnu_phsp.dec | 36 + BaBar_2014/BpBm_omegapi.dec | 46 + BaBar_2014/BpBm_phiKSpip.dec | 42 + BaBar_2014/BpBm_phiKSpip_phiK0LK0S.dec | 42 + BaBar_2014/BpBm_phiKp.dec | 35 + BaBar_2014/BpBm_phiKppi0.dec | 37 + BaBar_2014/BpBm_phiKst1430_KLpip.dec | 48 + BaBar_2014/BpBm_phiKst1430_KSpip.dec | 53 + BaBar_2014/BpBm_phiKst1430_Kppi0.dec | 48 + .../BpBm_phiKstar1430p_K0LK0S_KSpip.dec | 53 + BaBar_2014/BpBm_phiKstarp_3piKSpip_ln.dec | 58 + BaBar_2014/BpBm_phiKstarp_3piKSpip_tr.dec | 58 + BaBar_2014/BpBm_phiKstarp_3piKppi0_ln.dec | 53 + BaBar_2014/BpBm_phiKstarp_3piKppi0_tr.dec | 53 + BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_ln.dec | 53 + BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_tr.dec | 53 + BaBar_2014/BpBm_phiKstarp_KLpip.dec | 72 + BaBar_2014/BpBm_phiKstarp_KSpip.dec | 75 + BaBar_2014/BpBm_phiKstarp_KSpip_angle1.dec | 78 + BaBar_2014/BpBm_phiKstarp_KSpip_angle2.dec | 78 + BaBar_2014/BpBm_phiKstarp_KSpip_angle3.dec | 80 + BaBar_2014/BpBm_phiKstarp_KSpip_ln.dec | 58 + BaBar_2014/BpBm_phiKstarp_KSpip_odd.dec | 59 + BaBar_2014/BpBm_phiKstarp_KSpip_tr.dec | 58 + BaBar_2014/BpBm_phiKstarp_Kppi0.dec | 70 + BaBar_2014/BpBm_phiKstarp_Kppi0_angle1.dec | 72 + BaBar_2014/BpBm_phiKstarp_Kppi0_angle2.dec | 72 + BaBar_2014/BpBm_phiKstarp_Kppi0_angle3.dec | 74 + BaBar_2014/BpBm_phiKstarp_Kppi0_ln.dec | 53 + BaBar_2014/BpBm_phiKstarp_Kppi0_odd.dec | 54 + BaBar_2014/BpBm_phiKstarp_Kppi0_tr.dec | 53 + BaBar_2014/BpBm_phikkk.dec | 41 + BaBar_2014/BpBm_phim3pimnoint_Kp.dec | 43 + BaBar_2014/BpBm_phim3pimphsp_Kp.dec | 40 + BaBar_2014/BpBm_phinKp.dec | 41 + BaBar_2014/BpBm_phiphiKp.dec | 42 + BaBar_2014/BpBm_phipip.dec | 35 + BaBar_2014/BpBm_phirhop.dec | 45 + BaBar_2014/BpBm_phirhop_ln.dec | 45 + BaBar_2014/BpBm_phirhop_tr.dec | 45 + BaBar_2014/BpBm_pi0lnu_FLATQ2.dec | 45 + BaBar_2014/BpBm_pi0lnu_phsp.dec | 37 + BaBar_2014/BpBm_pi0rho.dec | 45 + BaBar_2014/BpBm_pi2K0s.dec | 28 + BaBar_2014/BpBm_pi2pi0.dec | 28 + BaBar_2014/BpBm_piK0pi0.dec | 29 + BaBar_2014/BpBm_pi_D0mK3pi.dec | 46 + BaBar_2014/BpBm_pi_D0mKpimWS.dec | 48 + BaBar_2014/BpBm_pi_D0mKpipi0.dec | 46 + BaBar_2014/BpBm_pi_D0mKspipi.dec | 65 + BaBar_2014/BpBm_pi_Dstar0mgammaD0mK3piRes.dec | 106 + BaBar_2014/BpBm_pi_Dstar0mgammaD0mKpi.dec | 55 + BaBar_2014/BpBm_pi_Dstar0mpi0D0_taunu.dec | 56 + BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3pi.dec | 55 + BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3piRes.dec | 106 + BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpi.dec | 55 + BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpipi0.dec | 55 + BaBar_2014/BpBm_pi_Dstar0mpi0D0mKspipi.dec | 70 + BaBar_2014/BpBm_pichi_c0_pipi.dec | 35 + BaBar_2014/BpBm_piee_Ball.dec | 34 + BaBar_2014/BpBm_pilnu.dec | 35 + BaBar_2014/BpBm_pimumu_Ball.dec | 34 + BaBar_2014/BpBm_pipKsKs.dec | 34 + BaBar_2014/BpBm_pipemmup_PHSP.dec | 34 + BaBar_2014/BpBm_pipepmum_PHSP.dec | 34 + BaBar_2014/BpBm_pipi.dec | 30 + BaBar_2014/BpBm_pippi0Kstar_Kppim.dec | 42 + BaBar_2014/BpBm_pippi0eta.dec | 41 + BaBar_2014/BpBm_pippi0pi0eta.dec | 41 + BaBar_2014/BpBm_pippi0pi0pi0.dec | 33 + BaBar_2014/BpBm_pippimKstar_KSpip.dec | 47 + BaBar_2014/BpBm_pippimKstar_Kppi0.dec | 42 + BaBar_2014/BpBm_pippippim_intf1.dec | 144 + BaBar_2014/BpBm_pippippim_intf2.dec | 143 + BaBar_2014/BpBm_pippippim_intf3.dec | 142 + BaBar_2014/BpBm_pirho0.dec | 37 + BaBar_2014/BpBm_pmLambda_cppim_Lambda3pi.dec | 53 + BaBar_2014/BpBm_pmLambda_cppim_Lambdapip.dec | 53 + BaBar_2014/BpBm_pmLambda_cppim_protonkpi.dec | 41 + BaBar_2014/BpBm_pmLambda_cppim_protonks.dec | 58 + .../BpBm_pmLambda_cppim_protonks2pi.dec | 58 + BaBar_2014/BpBm_ppbarK1270.dec | 26 + BaBar_2014/BpBm_ppbarKstar.dec | 50 + BaBar_2014/BpBm_ppbarpi.dec | 26 + BaBar_2014/BpBm_ppbarrho.dec | 26 + BaBar_2014/BpBm_psi2sXK.dec | 36 + BaBar_2014/BpBm_rho0KSpip.dec | 37 + BaBar_2014/BpBm_rho0Kppi0.dec | 32 + BaBar_2014/BpBm_rho0Kstar_K0pip.dec | 55 + BaBar_2014/BpBm_rho0Kstar_K0pip_ln.dec | 55 + BaBar_2014/BpBm_rho0Kstar_K0pip_tr.dec | 55 + BaBar_2014/BpBm_rho0Kstar_Kppi0.dec | 50 + BaBar_2014/BpBm_rho0Kstar_Kppi0_ln.dec | 50 + BaBar_2014/BpBm_rho0Kstar_Kppi0_tr.dec | 50 + BaBar_2014/BpBm_rho0lnu_FLATQ2.dec | 37 + BaBar_2014/BpBm_rho0pippi0.dec | 32 + BaBar_2014/BpBm_rho1450Kp.dec | 43 + BaBar_2014/BpBm_rho1450pi.dec | 37 + BaBar_2014/BpBm_rho1700Kp.dec | 43 + BaBar_2014/BpBm_rho1700pi.dec | 37 + BaBar_2014/BpBm_rho_D0mK3pi.dec | 46 + BaBar_2014/BpBm_rho_D0mKpi.dec | 46 + BaBar_2014/BpBm_rho_D0mKpipi0.dec | 46 + BaBar_2014/BpBm_rho_D0mKspipi.dec | 65 + BaBar_2014/BpBm_rho_Dstar0mpiD0mKpi.dec | 55 + BaBar_2014/BpBm_rhoee_Ball.dec | 34 + BaBar_2014/BpBm_rhogamma.dec | 29 + BaBar_2014/BpBm_rholnu.dec | 36 + BaBar_2014/BpBm_rholnu_lcsr.dec | 36 + BaBar_2014/BpBm_rholnu_phsp.dec | 36 + BaBar_2014/BpBm_rhomKppip.dec | 32 + BaBar_2014/BpBm_rhompippip.dec | 32 + BaBar_2014/BpBm_rhomumu_Ball.dec | 34 + BaBar_2014/BpBm_rhopKpKm.dec | 32 + BaBar_2014/BpBm_rhopKppim.dec | 32 + BaBar_2014/BpBm_rhopKstar_Kppim.dec | 50 + BaBar_2014/BpBm_rhopKstar_Kppim_ln.dec | 51 + BaBar_2014/BpBm_rhopKstar_Kppim_tr.dec | 51 + BaBar_2014/BpBm_rhopantiD0_D0mK0K0.dec | 47 + BaBar_2014/BpBm_rhopemmup_PHSP.dec | 34 + BaBar_2014/BpBm_rhopepmum_PHSP.dec | 34 + BaBar_2014/BpBm_rhopetapi0.dec | 36 + BaBar_2014/BpBm_rhoppi0pi0.dec | 33 + BaBar_2014/BpBm_rhoppippim.dec | 32 + BaBar_2014/BpBm_rhoprho0.dec | 40 + BaBar_2014/BpBm_rhoprho0_ln.dec | 40 + BaBar_2014/BpBm_rhoprho0_tr.dec | 40 + BaBar_2014/BpBm_rhorho0pi0.dec | 29 + BaBar_2014/BpBm_rhorhopi.dec | 29 + BaBar_2014/BpBm_sigmapbarpi0_amplitude.dec | 39 + BaBar_2014/BpBm_taunu.dec | 32 + BaBar_2014/BpBm_taunu_DX.dec | 332 + BaBar_2014/BpBm_taunu_tau_to_3pinu.dec | 45 + BaBar_2014/BpBm_taunu_tau_to_enunu.dec | 47 + BaBar_2014/BpBm_taunu_tau_to_mununu.dec | 50 + .../BpToDlnuX_D0KpimormDpKpipi_BmToKnunu.dec | 241 + .../BpToDlnuX_D0KpimormDpKpipi_BmToTauNu.dec | 241 + BaBar_2014/Bp_JpsiKp_hadrons.dec | 111 + BaBar_2014/Bp_chi1cKp_jpsiGam_X.dec | 61 + BaBar_2014/Bp_chic0Kp_2K.dec | 51 + BaBar_2014/Bp_chic0Kp_hadrons.dec | 111 + BaBar_2014/Bp_chic1Kp_hadrons.dec | 111 + BaBar_2014/Bp_chic2Kp_hadrons.dec | 110 + BaBar_2014/Bp_etac2SKp_hadrons.dec | 111 + BaBar_2014/Bp_etacKp_hadrons.dec | 101 + BaBar_2014/Bp_hcKp_3had.dec | 49 + BaBar_2014/Bp_hcKp_4had.dec | 46 + BaBar_2014/Bp_hcKp_JpsiX.dec | 46 + BaBar_2014/Bp_hcKp_etacGam_X.dec | 67 + BaBar_2014/Bp_hcKp_hadrons.dec | 111 + BaBar_2014/Bp_ppbarpipiK.dec | 43 + BaBar_2014/Bp_psi2SKp_hadrons.dec | 111 + BaBar_2014/BptoD0pi_D0toKpi_BmtoDsKpi.dec | 277 + .../BptoD0pi_D0toKpi_BmtoLambdaCppi.dec | 211 + BaBar_2014/BptoJPsiK1p.dec | 58 + ...toJpsiKp_JpsitoKstar0Ks0_Kstar0toKmpip.dec | 63 + ...toJpsiKp_JpsitoKstar0Ks0_Kstar0toKppim.dec | 63 + ...oJpsiKp_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec | 63 + BaBar_2014/BptoJpsiKp_JpsitoKstarK.dec | 91 + ...ptoJpsiKp_JpsitoKstarmKp_KstarmtoKmpi0.dec | 61 + ...toJpsiKp_JpsitoKstarmKp_KstarmtoKs0pim.dec | 62 + ...ptoJpsiKp_JpsitoKstarpKm_KstarptoKppi0.dec | 61 + ...toJpsiKp_JpsitoKstarpKm_KstarptoKs0pip.dec | 62 + BaBar_2014/BptoJpsiKp_JpsitoRho0pi0.dec | 50 + BaBar_2014/BptoJpsiKp_JpsitoRhoPi.dec | 50 + BaBar_2014/BptoJpsiKp_JpsitoRhompip.dec | 50 + BaBar_2014/BptoJpsiKp_JpsitoRhoppim.dec | 50 + BaBar_2014/BptoXKp_XtoJpsiPi0Pi0.dec | 48 + BaBar_2014/BptoXKp_XtoJpsiRho0.dec | 50 + .../BptoXKp_XtoJpsiRho0_Rho0toPi0Pi0.dec | 52 + .../BptoXKp_XtoKstar0Ks0_Kstar0toKmpip.dec | 64 + .../BptoXKp_XtoKstar0Ks0_Kstar0toKppim.dec | 65 + .../BptoXKp_XtoKstar0Ks0_Kstar0toKs0pi0.dec | 59 + .../BptoXKp_XtoKstarmKp_KstarmtoKmpi0.dec | 62 + .../BptoXKp_XtoKstarmKp_KstarmtoKs0pim.dec | 63 + .../BptoXKp_XtoKstarpKm_KstarptoKppi0.dec | 62 + .../BptoXKp_XtoKstarpKm_KstarptoKs0pip.dec | 63 + BaBar_2014/BptoXKp_XtoRho0pi0.dec | 51 + BaBar_2014/BptoXKp_XtoRhompip.dec | 51 + BaBar_2014/BptoXKp_XtoRhoppim.dec | 51 + BaBar_2014/BptoXpKs0_XptoJpsiRhop.dec | 60 + BaBar_2014/Bptopsi3770Kp.dec | 39 + BaBar_2014/BtoEtaPK0_1430.dec | 58 + BaBar_2014/BtoEtaPK1_1273.dec | 58 + BaBar_2014/BtoEtaPK1_1402.dec | 58 + BaBar_2014/BtoEtaPK2_1430.dec | 60 + BaBar_2014/BtoEtaPK3_1780.dec | 84 + BaBar_2014/BtoEtaPK4_2045.dec | 82 + BaBar_2014/BtoEtaPKstar_1414.dec | 58 + BaBar_2014/BtoEtapDpi.dec | 58 + BaBar_2014/BtoXsEtap.dec | 98 + BaBar_2014/BtoXsEtap_nonres.dec | 104 + BaBar_2014/BtoXsEtap_sqbar.dec | 104 + BaBar_2014/BtoXsEtapnew.dec | 101 + BaBar_2014/Chic12Inclusive.dec | 37 + BaBar_2014/Chic12InclusiveBCH.dec | 35 + BaBar_2014/Chic12InclusiveBCH_E1.dec | 59 + BaBar_2014/Chic12Inclusive_E1.dec | 55 + BaBar_2014/Dm_KmKsrho0.dec | 28 + ..._etapi_eta_to_gg_vs_taunu_tau_to_enunu.dec | 272 + BaBar_2014/DsToRecoK.dec | 46 + BaBar_2014/DsToRecoPhi.dec | 27 + BaBar_2014/Dsminus_to_omegarho.dec | 19 + BaBar_2014/Dsminus_tomomegapi.dec | 19 + BaBar_2014/Dsplus_to_munu.dec | 25 + BaBar_2014/Dsplus_to_omegapi.dec | 19 + BaBar_2014/Dsplus_to_omegarho.dec | 19 + BaBar_2014/Dsplus_to_taunu.dec | 24 + BaBar_2014/Dsplus_to_taunumtau_to_enunu.dec | 30 + BaBar_2014/Dsplus_to_taunumtau_to_mununu.dec | 31 + BaBar_2014/EtaCInclusive.dec | 34 + BaBar_2014/EtaCInclusive_2phi.dec | 21 + BaBar_2014/EtaCInclusive_4K.dec | 15 + BaBar_2014/EtaCInclusive_KsKPi.dec | 22 + BaBar_2014/EtaCInclusive_eta2pi.dec | 21 + BaBar_2014/EtaCInclusive_pi02K.dec | 21 + BaBar_2014/EtaCInclusive_ppbar.dec | 15 + BaBar_2014/ISR_CbaryonpKpi_Dn_SP4.dec | 731 ++ BaBar_2014/ISR_CbaryonpKpi_Dnpi0_SP4.dec | 697 ++ BaBar_2014/ISR_CbaryonpKpi_Dnpi_SP4.dec | 855 ++ BaBar_2014/ISR_CbaryonpKpi_Dp_SP4.dec | 731 ++ BaBar_2014/ISR_CbaryonpKpi_Dppi0_SP4.dec | 699 ++ BaBar_2014/ISR_CbaryonpKpi_Dppi_SP4.dec | 697 ++ BaBar_2014/ISR_LcCocktail_LcCocktail_SP4.dec | 286 + BaBar_2014/ISR_LcpKpi_LcCocktail_SP4.dec | 307 + BaBar_2014/ISR_LcpKpi_LcpKpi_SP4.dec | 286 + .../ISR_SigcCocktail_SigcCocktail_SP4.dec | 540 ++ BaBar_2014/ISR_SigcpKpi_SigcCocktail_SP4.dec | 811 ++ BaBar_2014/ISR_SigcpKpi_SigcpKpi_SP4.dec | 540 ++ BaBar_2014/ISR_aliases_v2.dec | 7482 +++++++++++++++ BaBar_2014/ISR_aliases_v3.dec | 8194 ++++++++++++++++ .../ISR_aliases_vph124_ds9008_ds9000.dec | 5627 +++++++++++ .../ISR_aliases_vph124_ds9008_ds9003.dec | 5626 +++++++++++ .../ISR_aliases_vph124_ds9008_ds9007.dec | 5627 +++++++++++ .../ISR_aliases_vph124_ds9008_ds9009.dec | 5626 +++++++++++ .../ISR_aliases_vph124_ds9008_ds9010.dec | 5626 +++++++++++ .../ISR_aliases_vph124_ds9008_ds9011.dec | 5626 +++++++++++ .../ISR_aliases_vph124_ds9008_ds9013.dec | 5626 +++++++++++ ...sv2_vph134_dc9100mdo9200_dc9100mdo9200.dec | 7499 +++++++++++++++ ...sv2_vph134_dc9101mdo9201_dc9100mdo9200.dec | 7499 +++++++++++++++ ...sv2_vph134_dc9101mdo9201_dc9101mdo9201.dec | 7499 +++++++++++++++ ...SR_aliasv2_vph135_dc9101mdo9201_dc8001.dec | 7494 +++++++++++++++ ...SR_aliasv2_vph135_dc9101mdo9201_dc9104.dec | 7494 +++++++++++++++ .../ISR_aliasv2_vph136_do9200_do9200.dec | 7489 +++++++++++++++ .../ISR_aliasv2_vph136_do9201_do9200.dec | 7489 +++++++++++++++ .../ISR_aliasv2_vph136_do9201_do9201.dec | 7489 +++++++++++++++ ...SR_aliasv2_vph137_dc9100mdo9200_dc9100.dec | 7492 +++++++++++++++ ...SR_aliasv2_vph137_dc9100mdo9200_dc9101.dec | 7492 +++++++++++++++ ...SR_aliasv2_vph137_dc9101mdo9201_dc9100.dec | 7492 +++++++++++++++ ...SR_aliasv2_vph137_dc9101mdo9201_dc9101.dec | 7492 +++++++++++++++ .../ISR_aliasv2_vph138_dc8001_dc9101.dec | 7487 +++++++++++++++ .../ISR_aliasv2_vph138_dc9104_dc9101.dec | 7487 +++++++++++++++ .../ISR_aliasv2_vph139_do9200mdo9200.dec | 7488 +++++++++++++++ .../ISR_aliasv2_vph139_do9201mdo9200.dec | 7489 +++++++++++++++ .../ISR_aliasv2_vph139_do9201mdo9201.dec | 7487 +++++++++++++++ ...sv2_vph140_dc9100mdo9200_dc9100mdo9200.dec | 7496 +++++++++++++++ ...sv2_vph140_dc9101mdo9201_dc9100mdo9200.dec | 7496 +++++++++++++++ ...sv2_vph140_dc9101mdo9201_dc9101mdo9201.dec | 7496 +++++++++++++++ ...sv2_vph141_dc9101mdo9201_dc9100mdo9200.dec | 7496 +++++++++++++++ ...sv2_vph141_dc9101mdo9201_dc9101mdo9201.dec | 7495 +++++++++++++++ ...sv2_vph142_dc9101mdo9201_dc9100mdo9200.dec | 7501 +++++++++++++++ ...sv2_vph142_dc9101mdo9201_dc9101mdo9201.dec | 7498 +++++++++++++++ .../ISR_aliasv2_vph143_ds9006_ds9000.dec | 7492 +++++++++++++++ .../ISR_aliasv2_vph143_ds9006_ds9003.dec | 7492 +++++++++++++++ .../ISR_aliasv2_vph143_ds9006_ds9007.dec | 7495 +++++++++++++++ .../ISR_aliasv2_vph143_ds9006_ds9009.dec | 7492 +++++++++++++++ .../ISR_aliasv2_vph143_ds9006_ds9010.dec | 7492 +++++++++++++++ .../ISR_aliasv2_vph143_ds9006_ds9011.dec | 7492 +++++++++++++++ .../ISR_aliasv2_vph143_ds9006_ds9013.dec | 7492 +++++++++++++++ ...SR_aliasv3_vph137_dc6000_do9202mdc6000.dec | 8005 ++++++++++++++++ ...R_aliasv3_vph139_dstrpi0_do9202mdO9202.dec | 7998 ++++++++++++++++ ...sv3_vph144_dc6000_do3000mdc6000_do9202.dec | 7964 ++++++++++++++++ ...v3_vph145_dstrneu_do3000mdc6000_do9202.dec | 8012 ++++++++++++++++ ...146_DD12pi_dc6000_do3000_dc9100_do9200.dec | 8056 ++++++++++++++++ ...146_DD34pi_dc6000_do3000_dc9100_do9200.dec | 8070 ++++++++++++++++ ...146_DD56pi_dc6000_do3000_dc9100_do9200.dec | 8085 ++++++++++++++++ ..._DstrD12pi_dc6000_do3000_dc9100_do9200.dec | 8076 ++++++++++++++++ ..._DstrD34pi_dc6000_do3000_dc9100_do9200.dec | 8099 ++++++++++++++++ ..._DstrD56pi_dc6000_do3000_dc9100_do9200.dec | 8123 ++++++++++++++++ ...trDstr12pi_dc6000_do3000_dc9100_do9200.dec | 8059 ++++++++++++++++ ...trDstr34pi_dc6000_do3000_dc9100_do9200.dec | 8071 ++++++++++++++++ ...trDstr56pi_dc6000_do3000_dc9100_do9200.dec | 8085 ++++++++++++++++ ...D_DstrDstr_dc6000_do3000_dc9100_do9200.dec | 8088 ++++++++++++++++ ..._aliasv3_vph148_LcLc12pi_Lc9301mLc9300.dec | 8239 ++++++++++++++++ ..._aliasv3_vph148_LcLc12pi_Lc9301mLc9301.dec | 8239 ++++++++++++++++ ..._aliasv3_vph148_LcLc34pi_Lc9301mLc9300.dec | 8245 ++++++++++++++++ ..._aliasv3_vph148_LcLc34pi_Lc9301mLc9301.dec | 8245 ++++++++++++++++ ..._aliasv3_vph148_LcLc56pi_Lc9301mLc9300.dec | 8251 ++++++++++++++++ ..._aliasv3_vph148_LcLc56pi_Lc9301mLc9301.dec | 8251 ++++++++++++++++ .../ISR_aliasv3_vph148_LcLc_Lc9301mLc9300.dec | 8233 ++++++++++++++++ .../ISR_aliasv3_vph148_LcLc_Lc9301mLc9301.dec | 8233 ++++++++++++++++ ...v3_vph148_LcND1pi_Lc9301mdc6000_do3000.dec | 8256 ++++++++++++++++ ...v3_vph148_LcND2pi_Lc9301mdc6000_do3000.dec | 8271 ++++++++++++++++ ...iasv3_vph148_LcND_Lc9301mdc6000_do3000.dec | 8241 ++++++++++++++++ ...asv3_vph148_LcXcK_Lc9301mXc9400_Xc9401.dec | 8252 ++++++++++++++++ ...v3_vph148_ScND1pi_Lc9301mdc6000_do3000.dec | 8266 ++++++++++++++++ ...iasv3_vph148_ScND_Lc9301mdc6000_do3000.dec | 8256 ++++++++++++++++ ...R_aliasv3_vph148_ScSc1pi_Lc9301mLc9300.dec | 8254 ++++++++++++++++ ...R_aliasv3_vph148_ScSc1pi_Lc9301mLc9301.dec | 8254 ++++++++++++++++ .../ISR_aliasv3_vph148_ScSc_Lc9301mLc9300.dec | 8239 ++++++++++++++++ .../ISR_aliasv3_vph148_ScSc_Lc9301mLc9301.dec | 8239 ++++++++++++++++ ...asv3_vph148_ScXcK_Lc9301mXc9400_Xc9401.dec | 8252 ++++++++++++++++ ...3_vph148_ScXcKstr_Lc9301mXc9400_Xc9401.dec | 8252 ++++++++++++++++ ...liasv3_vph148_ScstrSc1pi_Lc9301mLc9300.dec | 8283 +++++++++++++++++ ...liasv3_vph148_ScstrSc1pi_Lc9301mLc9301.dec | 8283 +++++++++++++++++ ...R_aliasv3_vph148_ScstrSc_Lc9301mLc9300.dec | 8246 ++++++++++++++++ ...R_aliasv3_vph148_ScstrSc_Lc9301mLc9301.dec | 8246 ++++++++++++++++ ...sv3_vph149_D0KmDs_dc6000_do9202mds9014.dec | 8237 ++++++++++++++++ ...sv3_vph149_D0KmDs_dc6000_do9202mds9015.dec | 8237 ++++++++++++++++ ..._vph149_D0KstrmDs_dc6000_do9202mds9014.dec | 8237 ++++++++++++++++ ..._vph149_D0KstrmDs_dc6000_do9202mds9015.dec | 8237 ++++++++++++++++ ...sv3_vph149_DcKsDs_dc6000_do9202mds9014.dec | 8237 ++++++++++++++++ ...sv3_vph149_DcKsDs_dc6000_do9202mds9015.dec | 8237 ++++++++++++++++ ..._vph149_DcKstr0Ds_dc6000_do9202mds9014.dec | 8237 ++++++++++++++++ ..._vph149_DcKstr0Ds_dc6000_do9202mds9015.dec | 8237 ++++++++++++++++ ..._aliasv3_vph149_DsDs12pi_ds0001mds9000.dec | 8238 ++++++++++++++++ ..._aliasv3_vph149_DsDs12pi_ds0008mds9000.dec | 8238 ++++++++++++++++ ..._aliasv3_vph149_DsDs12pi_ds9014mds9014.dec | 8238 ++++++++++++++++ ..._aliasv3_vph149_DsDs12pi_ds9014mds9015.dec | 8253 ++++++++++++++++ ..._aliasv3_vph149_DsDs34pi_ds0001mds9000.dec | 8258 ++++++++++++++++ ..._aliasv3_vph149_DsDs34pi_ds0008mds9000.dec | 8258 ++++++++++++++++ ..._aliasv3_vph149_DsDs34pi_ds9014mds9014.dec | 8258 ++++++++++++++++ ..._aliasv3_vph149_DsDs56pi_ds0001mds9000.dec | 8276 ++++++++++++++++ ..._aliasv3_vph149_DsDs56pi_ds0008mds9000.dec | 8276 ++++++++++++++++ ..._aliasv3_vph149_DsDs56pi_ds9014mds9014.dec | 8276 ++++++++++++++++ .../ISR_aliasv3_vph149_DsDs_ds0001mds9000.dec | 8217 ++++++++++++++++ .../ISR_aliasv3_vph149_DsDs_ds0008mds9000.dec | 8217 ++++++++++++++++ .../ISR_aliasv3_vph149_DsDs_ds9014mds9014.dec | 8217 ++++++++++++++++ .../ISR_aliasv3_vph149_DsDs_ds9014mds9015.dec | 8235 ++++++++++++++++ BaBar_2014/ISR_charmonia_to_ll.dec | 39 + ...taunu_KstarKstar_to_mununu_KshortKpipi.dec | 128 + ...to_taunu_etaPpi_to_mununu_pipi_pipipi0.dec | 122 + ...sstar_to_taunu_etaPpi_to_mununu_pipigg.dec | 122 + ...rDsstar_to_taunu_etaPpi_to_mununu_rhog.dec | 116 + ...o_taunu_etaPrho_to_mununu_pipi_pipipi0.dec | 122 + ...star_to_taunu_etaPrho_to_mununu_pipigg.dec | 122 + ...Dsstar_to_taunu_etaPrho_to_mununu_rhog.dec | 122 + ...starDsstar_to_taunu_etapi_to_mununu_gg.dec | 117 + ...sstar_to_taunu_etapi_to_mununu_pipipi0.dec | 117 + ...tarDsstar_to_taunu_etarho_to_mununu_gg.dec | 117 + ...star_to_taunu_etarho_to_mununu_pipipi0.dec | 117 + ...rDsstar_to_taunu_f0pi_to_mununu_pipipi.dec | 115 + ...o_taunu_phipipipipi_to_mununu_KKpipipi.dec | 115 + BaBar_2014/ISR_psi_psi_to_ee.dec | 23 + BaBar_2014/ISR_psi_psi_to_mumu.dec | 24 + BaBar_2014/ISR_psi_to_KsKpi.dec | 29 + ...siprime_psiprime_to_psipipi__psi_to_ee.dec | 26 + ...prime_psiprime_to_psipipi__psi_to_mumu.dec | 28 + BaBar_2014/ISR_vph130.dec | 5608 +++++++++++ BaBar_2014/ISR_vph132.dec | 5640 +++++++++++ BaBar_2014/ISR_vph133.dec | 5640 +++++++++++ BaBar_2014/InclDs1D_Dwave.dec | 80 + BaBar_2014/InclDs1D_Swave.dec | 80 + BaBar_2014/JpsiToLL.dec | 10 + BaBar_2014/LFV_e_tau.dec | 45 + BaBar_2014/LFV_e_tau_to_a1_taunu.dec | 37 + BaBar_2014/LFV_e_tau_to_e_enu_taunu.dec | 27 + BaBar_2014/LFV_e_tau_to_mu_munu_taunu.dec | 28 + BaBar_2014/LFV_e_tau_to_pi_taunu.dec | 28 + BaBar_2014/LFV_mu_tau.dec | 45 + BaBar_2014/LFV_mu_tau_to_a1_taunu.dec | 37 + BaBar_2014/LFV_mu_tau_to_e_enu_taunu.dec | 27 + BaBar_2014/LFV_mu_tau_to_mu_munu_taunu.dec | 28 + BaBar_2014/LFV_mu_tau_to_pi_taunu.dec | 28 + BaBar_2014/Lambda_cp_pKpi.dec | 48 + .../Lambda_cp_pKpi_Force_Dmeson_Decays.dec | 82 + BaBar_2014/N50_Xi1530_Lambda0_K0.dec | 146 + BaBar_2014/N5p_Xi1530_Lambda0_Kp.dec | 57 + BaBar_2014/None.dec | 8 + BaBar_2014/PhiGamma.dec | 16 + BaBar_2014/PhiGamma_phiKLKS.dec | 21 + BaBar_2014/Psi2SJpsiLL.dec | 31 + BaBar_2014/Psi2StoJPsiPi0Pi0_inc.dec | 26 + BaBar_2014/Sigma5_Xi1530.dec | 150 + BaBar_2014/SingleAntiprotons.dec | 7 + BaBar_2014/SingleElectrons.dec | 7 + BaBar_2014/SingleKLong.dec | 7 + BaBar_2014/SingleKMinus.dec | 7 + BaBar_2014/SingleKPlus.dec | 7 + BaBar_2014/SingleMuMinus.dec | 7 + BaBar_2014/SingleMuPlus.dec | 7 + BaBar_2014/SinglePhotons.dec | 7 + BaBar_2014/SinglePi0.dec | 7 + BaBar_2014/SinglePiMinus.dec | 7 + BaBar_2014/SinglePiPlus.dec | 7 + BaBar_2014/SinglePositrons.dec | 7 + BaBar_2014/SingleProtons.dec | 7 + BaBar_2014/Single_Jpsi.dec | 17 + BaBar_2014/Single_Kspm.dec | 16 + BaBar_2014/TagB0Dsp.dec | 114 + BaBar_2014/TagB0DspToKstar0Kp.dec | 68 + BaBar_2014/TagB0DspToPhiPi.dec | 66 + BaBar_2014/TagB0barDsm.dec | 124 + BaBar_2014/TagB0barDsmToKstar0Km.dec | 71 + BaBar_2014/TagB0barDsmToPhiPi.dec | 66 + BaBar_2014/ThetacPq.dec | 64 + BaBar_2014/Thetap_Deltap.dec | 134 + BaBar_2014/Ups3S_gHiggsFat_tautau.dec | 31 + BaBar_2014/Ups3S_gHiggsFatter_tautau.dec | 30 + BaBar_2014/Ups4S_Dc_5modes.dec | 233 + BaBar_2014/Ups4S_Dstarm_D0pi_D0K0pipi.dec | 37 + BaBar_2014/Ups4S_Dstarm_D0pi_D0K3pi.dec | 48 + BaBar_2014/Ups4S_Dstarm_D0pi_D0KK.dec | 25 + BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpi.dec | 25 + BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpipi0.dec | 27 + BaBar_2014/Ups4S_Dstarm_D0pi_D0pi0pi0.dec | 25 + BaBar_2014/Ups4S_Dstarm_D0pi_D0pipi.dec | 25 + BaBar_2014/Ups4S_Dstarm_D0pi_Kmepnu_WS.dec | 19 + BaBar_2014/Ups4S_Dstarm_D0pi_Kmmupnu_WS.dec | 19 + BaBar_2014/Ups4S_Dstarm_D0pi_Kpemnu.dec | 19 + BaBar_2014/Ups4S_Dstarm_D0pi_Kpmumnu.dec | 20 + BaBar_2014/Ups4S_Dstarm_Dmpi0_DmKpipi.dec | 26 + BaBar_2014/Ups4S_Dstarp_D0pi_D0K0pipi.dec | 38 + BaBar_2014/Ups4S_Dstarp_D0pi_D0K3pi.dec | 48 + BaBar_2014/Ups4S_Dstarp_D0pi_D0KK.dec | 25 + BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpi.dec | 25 + BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpipi0.dec | 27 + BaBar_2014/Ups4S_Dstarp_D0pi_D0pi0pi0.dec | 25 + BaBar_2014/Ups4S_Dstarp_D0pi_D0pipi.dec | 25 + BaBar_2014/Ups4S_Dstarp_D0pi_Kmepnu.dec | 19 + BaBar_2014/Ups4S_Dstarp_D0pi_Kmmupnu.dec | 20 + BaBar_2014/Ups4S_Dstarp_D0pi_Kpemnu_WS.dec | 19 + BaBar_2014/Ups4S_Dstarp_D0pi_Kpmumnu_WS.dec | 19 + BaBar_2014/Ups4S_Dstarp_Dppi0_DpKpipi.dec | 27 + BaBar_2014/Ups4S_Xic0toOmegaK.dec | 48 + BaBar_2014/Ups4S_Xic0toXipi.dec | 47 + ...maChib3_3P1_to_gammaUps3S_to_pipiUpsnS.dec | 115 + ..._to_gammaChib3_3P1_to_gammaUpsnS_to_ll.dec | 115 + BaBar_2014/Ups4sToDlnuX_D0kpi.dec | 273 + BaBar_2014/X50_Sigmac0_Lambda0_K0.dec | 51 + BaBar_2014/X50_Sigmac0_Sigma0_K0.dec | 63 + BaBar_2014/X50_Xi1530_Lambda0_K0.dec | 147 + BaBar_2014/X5m_Sigmacm_Lambda0_Km.dec | 50 + BaBar_2014/X5m_Sigmacm_Sigma0_Km.dec | 62 + BaBar_2014/X5m_Xi1530_Lambda0_Km.dec | 57 + BaBar_2014/Xi15030.dec | 60 + BaBar_2014/Xic_5modes.dec | 41 + BaBar_2014/Xm_Xi1530.dec | 150 + BaBar_2014/Xm_Xic0_Xi0_K0_K0.dec | 69 + BaBar_2014/Xm_Xicm_Xi0_K0_pim.dec | 67 + BaBar_2014/Xmm_Deltapp.dec | 142 + BaBar_2014/Xmm_Sigmacpp.dec | 62 + BaBar_2014/ccbar.dec | 7 + BaBar_2014/ccbar_D0_3K0S.dec | 32 + BaBar_2014/ccbar_D0_KpKm.dec | 20 + BaBar_2014/ccbar_D0bar_KpKm.dec | 20 + BaBar_2014/ccbar_Dm_KpKmpim_phsp.dec | 20 + BaBar_2014/ccbar_Dm_KpKmpimpi0_phsp.dec | 20 + BaBar_2014/ccbar_Dm_Kpipi_phsp.dec | 21 + BaBar_2014/ccbar_Dp_KpKmpip_phsp.dec | 20 + BaBar_2014/ccbar_Dp_KpKmpippi0_phsp.dec | 20 + BaBar_2014/ccbar_Dp_Kpipi_phsp.dec | 21 + BaBar_2014/ccbar_Ds1m_Dsmpippim.dec | 107 + BaBar_2014/ccbar_Ds1m_Dsmpippim_kstar.dec | 35 + BaBar_2014/ccbar_Ds1m_Dsmpippim_phi.dec | 35 + ...mKs0_antiD0Ks0pim_Kppimpimpippimpippim.dec | 41 + ...iD0starpim_antiD0Ks0pim_Kmpimpippimpim.dec | 34 + ...Ds1p_D0starpip_D0Ks0pip_Kmpippippimpip.dec | 34 + BaBar_2014/ccbar_Ds1p_Dsppippim.dec | 107 + BaBar_2014/ccbar_Ds1p_Dsppippim_kstar.dec | 35 + BaBar_2014/ccbar_Ds1p_Dsppippim_phi.dec | 35 + ...starpKs0_D0Ks0pip_Kmpippippimpippippim.dec | 41 + BaBar_2014/ccbar_DsJ0_Dsmpip.dec | 124 + BaBar_2014/ccbar_DsJ0_Dsppim.dec | 123 + BaBar_2014/ccbar_DsJ2317m_Dsm2gamma.dec | 111 + BaBar_2014/ccbar_DsJ2317m_Dsmgamma.dec | 111 + BaBar_2014/ccbar_DsJ2317m_Dsmpi0.dec | 108 + BaBar_2014/ccbar_DsJ2317m_Dsmpi0pi0.dec | 111 + BaBar_2014/ccbar_DsJ2317m_Dsmpippim.dec | 111 + BaBar_2014/ccbar_DsJ2317m_Dstarmgamma.dec | 119 + BaBar_2014/ccbar_DsJ2317m_Dstarmpi0.dec | 119 + BaBar_2014/ccbar_DsJ2317p_Dsp2gamma.dec | 111 + BaBar_2014/ccbar_DsJ2317p_Dspgamma.dec | 111 + BaBar_2014/ccbar_DsJ2317p_Dsppi0.dec | 108 + BaBar_2014/ccbar_DsJ2317p_Dsppi0pi0.dec | 111 + BaBar_2014/ccbar_DsJ2317p_Dsppippim.dec | 111 + BaBar_2014/ccbar_DsJ2317p_Dstarpgamma.dec | 119 + BaBar_2014/ccbar_DsJ2317p_Dstarppi0.dec | 119 + BaBar_2014/ccbar_DsJ2458m_DsJ2317mgamma.dec | 117 + BaBar_2014/ccbar_DsJ2458m_Dsm2gamma.dec | 108 + BaBar_2014/ccbar_DsJ2458m_Dsmgamma.dec | 108 + BaBar_2014/ccbar_DsJ2458m_Dsmpi0.dec | 108 + BaBar_2014/ccbar_DsJ2458m_Dsmpi0pi0.dec | 108 + BaBar_2014/ccbar_DsJ2458m_Dsmpippim.dec | 108 + BaBar_2014/ccbar_DsJ2458m_Dstarmgamma.dec | 116 + BaBar_2014/ccbar_DsJ2458m_Dstarmpi0.dec | 116 + BaBar_2014/ccbar_DsJ2458p_DsJ2317pgamma.dec | 117 + BaBar_2014/ccbar_DsJ2458p_Dsp2gamma.dec | 108 + BaBar_2014/ccbar_DsJ2458p_Dspgamma.dec | 108 + BaBar_2014/ccbar_DsJ2458p_Dsppi0.dec | 108 + BaBar_2014/ccbar_DsJ2458p_Dsppi0pi0.dec | 108 + BaBar_2014/ccbar_DsJ2458p_Dsppippim.dec | 108 + BaBar_2014/ccbar_DsJ2458p_Dstarpgamma.dec | 116 + BaBar_2014/ccbar_DsJ2458p_Dstarppi0.dec | 116 + BaBar_2014/ccbar_DsJ2636m_D0barKm.dec | 90 + BaBar_2014/ccbar_DsJ2636m_Dsmeta_gg.dec | 116 + BaBar_2014/ccbar_DsJ2636p_D0Kp.dec | 91 + BaBar_2014/ccbar_DsJ2636p_Dspeta_gg.dec | 116 + BaBar_2014/ccbar_Ds_KpKmpipm_PHSP.dec | 25 + BaBar_2014/ccbar_Ds_KsKspipm_PHSP.dec | 39 + BaBar_2014/ccbar_Dsm_KpKmpim.dec | 24 + BaBar_2014/ccbar_Dsm_KpKmpimpi0_phsp.dec | 20 + BaBar_2014/ccbar_Dsm_KsKspim.dec | 28 + BaBar_2014/ccbar_Dsm_Phipim_KpKmpim.dec | 21 + BaBar_2014/ccbar_Dsm_phimphspmpipipi.dec | 26 + BaBar_2014/ccbar_Dsm_pippimpim.dec | 24 + BaBar_2014/ccbar_Dsp_KpKmpip.dec | 24 + BaBar_2014/ccbar_Dsp_KpKmpippi0_phsp.dec | 20 + BaBar_2014/ccbar_Dsp_KsKspip.dec | 28 + BaBar_2014/ccbar_Dsp_Phipip_KpKmpip.dec | 21 + BaBar_2014/ccbar_Dsp_phimphspmpipipi.dec | 26 + BaBar_2014/ccbar_Dsp_pippimpip.dec | 24 + BaBar_2014/ccbar_Dsstarm_Dsgamma.dec | 36 + BaBar_2014/ccbar_Dsstarm_Dsm_omegapi.dec | 26 + BaBar_2014/ccbar_Dsstarm_Dsm_omegarho.dec | 24 + BaBar_2014/ccbar_Dsstarm_Dspi0.dec | 36 + BaBar_2014/ccbar_Dsstarm_gDsm_munu.dec | 25 + BaBar_2014/ccbar_Dsstarp_Dsgamma.dec | 36 + BaBar_2014/ccbar_Dsstarp_Dsp_PhiRhop.dec | 35 + BaBar_2014/ccbar_Dsstarp_Dsp_kstarpgamma.dec | 38 + BaBar_2014/ccbar_Dsstarp_Dsp_omegapi.dec | 24 + BaBar_2014/ccbar_Dsstarp_Dsp_omegarho.dec | 24 + BaBar_2014/ccbar_Dsstarp_Dsp_rhopgamma.dec | 27 + BaBar_2014/ccbar_Dsstarp_Dspi0.dec | 36 + BaBar_2014/ccbar_Dsstarp_gDsp_munu.dec | 25 + .../ccbar_Dstarm_D0barpi_KKeta_gg_phsp.dec | 33 + .../ccbar_Dstarm_D0barpi_KKpi0_phsp.dec | 28 + .../ccbar_Dstarm_D0barpi_Kpieta_gg_phsp.dec | 35 + ...bar_Dstarm_D0barpi_Kpieta_pipipi0_phsp.dec | 33 + ...Dstarm_D0barpi_Kpietap_pipieta_gg_phsp.dec | 35 + .../ccbar_Dstarm_D0barpi_Kpipi0_phsp.dec | 28 + .../ccbar_Dstarm_D0barpi_pipieta_gg_phsp.dec | 130 + BaBar_2014/ccbar_Dstarm_D0pi_D0K0KK_ps.dec | 43 + BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kmpip_ps.dec | 43 + BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kppim_ps.dec | 43 + BaBar_2014/ccbar_Dstarm_D0pi_D0K0pi0.dec | 42 + BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi.dec | 42 + BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi_ps.dec | 43 + BaBar_2014/ccbar_Dstarm_D0pi_D0K3pi.dec | 53 + BaBar_2014/ccbar_Dstarm_D0pi_D0K3piWS.dec | 53 + BaBar_2014/ccbar_Dstarm_D0pi_D0K4pi.dec | 27 + BaBar_2014/ccbar_Dstarm_D0pi_D0KK.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_D0KKpipi.dec | 51 + BaBar_2014/ccbar_Dstarm_D0pi_D0Kpi.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_D0KpiWS.dec | 32 + BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0.dec | 32 + BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0WS.dec | 43 + BaBar_2014/ccbar_Dstarm_D0pi_D0emep.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_D0emmup.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_D0mummup.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_D0pi0pi0.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_D0pipi.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_D0pipipi0.dec | 28 + BaBar_2014/ccbar_Dstarm_D0pi_D0pipipipi.dec | 30 + BaBar_2014/ccbar_Dstarm_D0pi_Kmepnu_WS.dec | 23 + BaBar_2014/ccbar_Dstarm_D0pi_Kmmupnu_WS.dec | 23 + BaBar_2014/ccbar_Dstarm_D0pi_Kpemnu.dec | 23 + BaBar_2014/ccbar_Dstarm_D0pi_Kpmumnu.dec | 24 + BaBar_2014/ccbar_Dstarm_D0pi_pipemnu.dec | 23 + BaBar_2014/ccbar_Dstarm_Dmpi0_DmKKpi.dec | 44 + BaBar_2014/ccbar_Dstarm_Dmpi0_DmKpipi.dec | 31 + BaBar_2014/ccbar_Dstarm_Dmpi0_Kpipi_phsp.dec | 28 + .../ccbar_Dstarm_Dmpi0_Kppimpim_phsp.dec | 30 + BaBar_2014/ccbar_Dstarm_Dpi0_Kpi0.dec | 30 + BaBar_2014/ccbar_Dstarm_Dpi0_pipi0.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0K0KK_ps.dec | 44 + BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kmpip_ps.dec | 44 + BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kppim_ps.dec | 44 + BaBar_2014/ccbar_Dstarp_D0pi_D0K0pi0.dec | 48 + BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi.dec | 43 + BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi_ps.dec | 44 + BaBar_2014/ccbar_Dstarp_D0pi_D0K3pi.dec | 53 + BaBar_2014/ccbar_Dstarp_D0pi_D0K3piWS.dec | 53 + BaBar_2014/ccbar_Dstarp_D0pi_D0K4pi.dec | 27 + BaBar_2014/ccbar_Dstarp_D0pi_D0KK.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0KKpipi.dec | 50 + BaBar_2014/ccbar_Dstarp_D0pi_D0Kpi.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0KpiWS.dec | 32 + BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0.dec | 32 + BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0WS.dec | 43 + ...ar_Dstarp_D0pi_D0KstarGamma_KstarKppim.dec | 44 + BaBar_2014/ccbar_Dstarp_D0pi_D0emep.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0emmup.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0gammaGamma.dec | 37 + BaBar_2014/ccbar_Dstarp_D0pi_D0mummup.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0omegaGamma.dec | 45 + .../ccbar_Dstarp_D0pi_D0omegaKstar_Kppim.dec | 50 + BaBar_2014/ccbar_Dstarp_D0pi_D0phiGamma.dec | 45 + BaBar_2014/ccbar_Dstarp_D0pi_D0phiomega.dec | 41 + BaBar_2014/ccbar_Dstarp_D0pi_D0phirho0.dec | 36 + BaBar_2014/ccbar_Dstarp_D0pi_D0pi0pi0.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0pipi.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0pipipi0.dec | 28 + BaBar_2014/ccbar_Dstarp_D0pi_D0pipipipi.dec | 30 + BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Gamma.dec | 39 + .../ccbar_Dstarp_D0pi_D0rho0Kstar_Kppim.dec | 45 + .../ccbar_Dstarp_D0pi_KKeta_gg_phsp.dec | 29 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BaBar_2014/ccbar_Lambda_cp_Lambda3pi.dec | 27 + BaBar_2014/ccbar_Lambda_cp_Lambdak.dec | 29 + BaBar_2014/ccbar_Lambda_cp_Lambdakpi0.dec | 29 + BaBar_2014/ccbar_Lambda_cp_Lambdakpipi.dec | 28 + BaBar_2014/ccbar_Lambda_cp_Lambdapi.dec | 29 + BaBar_2014/ccbar_Lambda_cp_Lambdapi0pi.dec | 27 + BaBar_2014/ccbar_Lambda_cp_Lambdarho.dec | 32 + BaBar_2014/ccbar_Lambda_cp_Pks.dec | 28 + BaBar_2014/ccbar_Lambda_cp_Pks2pi.dec | 27 + BaBar_2014/ccbar_Lambda_cp_Sigmak.dec | 34 + BaBar_2014/ccbar_Lambda_cp_Sigmakpi0.dec | 34 + BaBar_2014/ccbar_Lambda_cp_Sigmakpipi.dec | 34 + BaBar_2014/ccbar_Lambda_cp_Sigmapi.dec | 34 + BaBar_2014/ccbar_Lambda_cp_XiKpi.dec | 32 + BaBar_2014/ccbar_antimLambda_cm_Lambda3pi.dec | 28 + BaBar_2014/ccbar_antimLambda_cm_Lambdak.dec | 30 + .../ccbar_antimLambda_cm_Lambdakpi0.dec | 30 + .../ccbar_antimLambda_cm_Lambdakpipi.dec | 30 + BaBar_2014/ccbar_antimLambda_cm_Lambdapi.dec | 29 + .../ccbar_antimLambda_cm_Lambdapi0pi.dec | 28 + BaBar_2014/ccbar_antimLambda_cm_Lambdarho.dec | 32 + BaBar_2014/ccbar_antimLambda_cm_Pks.dec | 27 + BaBar_2014/ccbar_antimLambda_cm_Pks2pi.dec | 27 + BaBar_2014/ccbar_antimLambda_cm_Sigmak.dec | 34 + BaBar_2014/ccbar_antimLambda_cm_Sigmakpi0.dec | 34 + .../ccbar_antimLambda_cm_Sigmakpipi.dec | 34 + BaBar_2014/ccbar_antimLambda_cm_Sigmapi.dec | 34 + BaBar_2014/ccbar_antimLambda_cm_XiKpi.dec | 32 + BaBar_2014/ccbarmoff.dec | 7 + BaBar_2014/eta_cKp.dec | 33 + BaBar_2014/jpsi_Dplus_Dstar.dec | 84 + BaBar_2014/nosignal.dec | 21 + BaBar_2014/ppbarKp.dec | 26 + BaBar_2014/qa_B0B_psiK0s_3.dec | 42 + BaBar_2014/qa_B0B_rhoppim.dec | 23 + BaBar_2014/qa_B0B_rhoppim_1.dec | 27 + BaBar_2014/qa_B0_Kppim.dec | 28 + BaBar_2014/qa_B0_psiK0s_1.dec | 42 + BaBar_2014/rare1.dec | 445 + BaBar_2014/rare2.dec | 445 + BaBar_2014/tau_KmKsrho0nu.dec | 29 + BaBar_2014/uds.dec | 11 + BaBar_2014/udsmoff.dec | 12 + BaBar_2014/vph_jpsiccbar_lplm_cocktail.dec | 56 + BaBar_2014/vph_psi2sccbar_lplm_cocktail.dec | 75 + BaBar_2014/vph_to_JpsiJpsi.dec | 24 + BaBar_2014/vph_to_JpsiX3872.dec | 26 + BaBar_2014/vph_to_isrX3872.dec | 31 + BaBar_2014/vph_to_isr_psi3770.dec | 29 + README | 5 + README~ | 5 + 3595 files changed, 1131005 insertions(+) create mode 100644 BaBar_2014/ADSmd0kmkpi.dec create mode 100644 BaBar_2014/ADSmd0kmkpimdcs.dec create mode 100644 BaBar_2014/ADSmd0pimkpimdcs.dec create mode 100644 BaBar_2014/ADSmdstar0kmd0gammamkpi.dec create mode 100644 BaBar_2014/ADSmdstar0kmd0gammamkpimdcs.dec create mode 100644 BaBar_2014/ADSmdstar0kmd0pi0mkpi.dec create mode 100644 BaBar_2014/ADSmdstar0kmd0pi0mkpimdcs.dec create mode 100644 BaBar_2014/ADSmdstar0pimd0gammamkpimdcs.dec create mode 100644 BaBar_2014/ADSmdstar0pimd0pi0mkpimdcs.dec create mode 100644 BaBar_2014/B0B0B_K0ee_Ali.dec create mode 100644 BaBar_2014/B0B0B_K0mumu_Ali.dec create mode 100644 BaBar_2014/B0B0B_KSee_Ali.dec create mode 100644 BaBar_2014/B0B0B_KSee_Ball.dec create mode 100644 BaBar_2014/B0B0B_KSemu_PHSP.dec create mode 100644 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BaBar_2014/ccbar_Dstarp_D0pi_D0emep.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0emmup.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0gammaGamma.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0mummup.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0omegaGamma.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0omegaKstar_Kppim.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0phiGamma.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0phiomega.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0phirho0.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0pi0pi0.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0pipi.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0pipipi0.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0pipipipi.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Gamma.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Kstar_Kppim.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_KKeta_gg_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_KKpi0_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kmepnu.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kmmupnu.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kpemnu_WS.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_gg_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_pipipi0_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kpietap_pipieta_gg_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kpipi0_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_Kpmumnu_WS.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_pimepnu.dec create mode 100644 BaBar_2014/ccbar_Dstarp_D0pi_pipieta_gg_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_Dpi0_Kpi0.dec create mode 100644 BaBar_2014/ccbar_Dstarp_Dpi0_pipi0.dec create mode 100644 BaBar_2014/ccbar_Dstarp_Dppi0_DpKKpi.dec create mode 100644 BaBar_2014/ccbar_Dstarp_Dppi0_DpKpipi.dec create mode 100644 BaBar_2014/ccbar_Dstarp_Dppi0_DpKshortpipi0.dec create mode 100644 BaBar_2014/ccbar_Dstarp_Dppi0_Kmpippip_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_Dppi0_Kpipi_phsp.dec create mode 100644 BaBar_2014/ccbar_Dstarp_gDp_munu.dec create mode 100644 BaBar_2014/ccbar_Dstarp_pi0Dp_munu.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Lambda3pi.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Lambdak.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Lambdakpi0.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Lambdakpipi.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Lambdapi.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Lambdapi0pi.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Lambdarho.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Pks.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_Pks2pi.dec create mode 100755 BaBar_2014/ccbar_Lambda_cp_Sigmak.dec create mode 100755 BaBar_2014/ccbar_Lambda_cp_Sigmakpi0.dec create mode 100755 BaBar_2014/ccbar_Lambda_cp_Sigmakpipi.dec create mode 100755 BaBar_2014/ccbar_Lambda_cp_Sigmapi.dec create mode 100644 BaBar_2014/ccbar_Lambda_cp_XiKpi.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Lambda3pi.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Lambdak.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Lambdakpi0.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Lambdakpipi.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Lambdapi.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Lambdapi0pi.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Lambdarho.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Pks.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_Pks2pi.dec create mode 100755 BaBar_2014/ccbar_antimLambda_cm_Sigmak.dec create mode 100755 BaBar_2014/ccbar_antimLambda_cm_Sigmakpi0.dec create mode 100755 BaBar_2014/ccbar_antimLambda_cm_Sigmakpipi.dec create mode 100755 BaBar_2014/ccbar_antimLambda_cm_Sigmapi.dec create mode 100644 BaBar_2014/ccbar_antimLambda_cm_XiKpi.dec create mode 100644 BaBar_2014/ccbarmoff.dec create mode 100644 BaBar_2014/eta_cKp.dec create mode 100644 BaBar_2014/jpsi_Dplus_Dstar.dec create mode 100644 BaBar_2014/nosignal.dec create mode 100644 BaBar_2014/ppbarKp.dec create mode 100644 BaBar_2014/qa_B0B_psiK0s_3.dec create mode 100644 BaBar_2014/qa_B0B_rhoppim.dec create mode 100644 BaBar_2014/qa_B0B_rhoppim_1.dec create mode 100644 BaBar_2014/qa_B0_Kppim.dec create mode 100644 BaBar_2014/qa_B0_psiK0s_1.dec create mode 100644 BaBar_2014/rare1.dec create mode 100644 BaBar_2014/rare2.dec create mode 100644 BaBar_2014/tau_KmKsrho0nu.dec create mode 100644 BaBar_2014/uds.dec create mode 100644 BaBar_2014/udsmoff.dec create mode 100644 BaBar_2014/vph_jpsiccbar_lplm_cocktail.dec create mode 100644 BaBar_2014/vph_psi2sccbar_lplm_cocktail.dec create mode 100644 BaBar_2014/vph_to_JpsiJpsi.dec create mode 100644 BaBar_2014/vph_to_JpsiX3872.dec create mode 100644 BaBar_2014/vph_to_isrX3872.dec create mode 100644 BaBar_2014/vph_to_isr_psi3770.dec create mode 100644 README create mode 100644 README~ diff --git a/BaBar_2014/ADSmd0kmkpi.dec b/BaBar_2014/ADSmd0kmkpi.dec new file mode 100644 index 0000000..d3616a7 --- /dev/null +++ b/BaBar_2014/ADSmd0kmkpi.dec @@ -0,0 +1,36 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-d0k-kpi.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 K- MyD0 PHSP; +Enddecay +# +Decay MyB+ +1.0 K+ Myanti-D0 PHSP; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmd0kmkpimdcs.dec b/BaBar_2014/ADSmd0kmkpimdcs.dec new file mode 100644 index 0000000..7a04a86 --- /dev/null +++ b/BaBar_2014/ADSmd0kmkpimdcs.dec @@ -0,0 +1,36 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-d0k-kpi-dcs.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 K- MyD0 PHSP; +Enddecay +# +Decay MyB+ +1.0 K+ Myanti-D0 PHSP; +Enddecay +# +Decay MyD0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmd0pimkpimdcs.dec b/BaBar_2014/ADSmd0pimkpimdcs.dec new file mode 100644 index 0000000..464cfd9 --- /dev/null +++ b/BaBar_2014/ADSmd0pimkpimdcs.dec @@ -0,0 +1,36 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-d0pi-kpi-dcs.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 pi- MyD0 PHSP; +Enddecay +# +Decay MyB+ +1.0 pi+ Myanti-D0 PHSP; +Enddecay +# +Decay MyD0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmdstar0kmd0gammamkpi.dec b/BaBar_2014/ADSmdstar0kmd0gammamkpi.dec new file mode 100644 index 0000000..e116857 --- /dev/null +++ b/BaBar_2014/ADSmdstar0kmd0gammamkpi.dec @@ -0,0 +1,46 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-dstar0k-d0gamma-kpi.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 MyD*0 K- SVS; +Enddecay +# +Decay MyB+ +1.0 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyD*0 +1.0 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.0 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmdstar0kmd0gammamkpimdcs.dec b/BaBar_2014/ADSmdstar0kmd0gammamkpimdcs.dec new file mode 100644 index 0000000..a97425a --- /dev/null +++ b/BaBar_2014/ADSmdstar0kmd0gammamkpimdcs.dec @@ -0,0 +1,46 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-dstar0k-d0gamma-kpi-dcs.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 MyD*0 K- SVS; +Enddecay +# +Decay MyB+ +1.0 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyD*0 +1.0 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.0 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmdstar0kmd0pi0mkpi.dec b/BaBar_2014/ADSmdstar0kmd0pi0mkpi.dec new file mode 100644 index 0000000..65b9136 --- /dev/null +++ b/BaBar_2014/ADSmdstar0kmd0pi0mkpi.dec @@ -0,0 +1,46 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-dstar0k-d0pi0-kpi.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 MyD*0 K- SVS; +Enddecay +# +Decay MyB+ +1.0 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyD*0 +1.0 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmdstar0kmd0pi0mkpimdcs.dec b/BaBar_2014/ADSmdstar0kmd0pi0mkpimdcs.dec new file mode 100644 index 0000000..295a046 --- /dev/null +++ b/BaBar_2014/ADSmdstar0kmd0pi0mkpimdcs.dec @@ -0,0 +1,46 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-dstar0k-d0pi0-kpi-dcs.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 MyD*0 K- SVS; +Enddecay +# +Decay MyB+ +1.0 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyD*0 +1.0 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmdstar0pimd0gammamkpimdcs.dec b/BaBar_2014/ADSmdstar0pimd0gammamkpimdcs.dec new file mode 100644 index 0000000..14daf09 --- /dev/null +++ b/BaBar_2014/ADSmdstar0pimd0gammamkpimdcs.dec @@ -0,0 +1,46 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-dstar0pi-d0gamma-kpi-dcs.dec,v 1.1 2004/05/17 22:51:40 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 MyD*0 pi- SVS; +Enddecay +# +Decay MyB+ +1.0 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyD*0 +1.0 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.0 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ADSmdstar0pimd0pi0mkpimdcs.dec b/BaBar_2014/ADSmdstar0pimd0pi0mkpimdcs.dec new file mode 100644 index 0000000..6b55262 --- /dev/null +++ b/BaBar_2014/ADSmdstar0pimd0pi0mkpimdcs.dec @@ -0,0 +1,46 @@ +# +# +# O. Long / UCSB +# +# $Id: ADS-dstar0pi-d0pi0-kpi-dcs.dec,v 1.2 2004/06/12 00:59:53 owen Exp $ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB- +1.0 MyD*0 pi- SVS; +Enddecay +# +Decay MyB+ +1.0 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyD*0 +1.0 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0B_K0ee_Ali.dec b/BaBar_2014/B0B0B_K0ee_Ali.dec new file mode 100644 index 0000000..11f6d33 --- /dev/null +++ b/BaBar_2014/B0B0B_K0ee_Ali.dec @@ -0,0 +1,26 @@ +################################################### +# # +# B0 -> K0 e+ e- # +# # +# + cc # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 2/Jul/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 K0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 anti-K0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_K0mumu_Ali.dec b/BaBar_2014/B0B0B_K0mumu_Ali.dec new file mode 100644 index 0000000..62792db --- /dev/null +++ b/BaBar_2014/B0B0B_K0mumu_Ali.dec @@ -0,0 +1,26 @@ +################################################### +# # +# B0 -> K0 mu+ mu- # +# # +# + cc # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 2/Jul/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 K0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 anti-K0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_KSee_Ali.dec b/BaBar_2014/B0B0B_KSee_Ali.dec new file mode 100644 index 0000000..d5714d1 --- /dev/null +++ b/BaBar_2014/B0B0B_KSee_Ali.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> Ks e+ e-, with Ks ->pi+ pi- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 MyK_S0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 MyK_S0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_KSee_Ball.dec b/BaBar_2014/B0B0B_KSee_Ball.dec new file mode 100644 index 0000000..d5714d1 --- /dev/null +++ b/BaBar_2014/B0B0B_KSee_Ball.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> Ks e+ e-, with Ks ->pi+ pi- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 MyK_S0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 MyK_S0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_KSemu_PHSP.dec b/BaBar_2014/B0B0B_KSemu_PHSP.dec new file mode 100644 index 0000000..c6b0022 --- /dev/null +++ b/BaBar_2014/B0B0B_KSemu_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B0 -> Ks e+ mu-, with Ks ->pi+ pi- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5 MyK_S0 mu+ e- PHOTOS PHSP; +0.5 MyK_S0 mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.5 MyK_S0 mu+ e- PHOTOS PHSP; +0.5 MyK_S0 mu- e+ PHOTOS PHSP; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0B_KSmumu_Ali.dec b/BaBar_2014/B0B0B_KSmumu_Ali.dec new file mode 100644 index 0000000..42ed53f --- /dev/null +++ b/BaBar_2014/B0B0B_KSmumu_Ali.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> Ks mu+ mu-, with Ks -> pi+ pi- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +# B0 -> Ks mu+ mu-, with Ks -> pi+ pi- +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 MyK_S0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 MyK_S0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_KSmumu_Ball.dec b/BaBar_2014/B0B0B_KSmumu_Ball.dec new file mode 100644 index 0000000..42ed53f --- /dev/null +++ b/BaBar_2014/B0B0B_KSmumu_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> Ks mu+ mu-, with Ks -> pi+ pi- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +# B0 -> Ks mu+ mu-, with Ks -> pi+ pi- +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 MyK_S0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 MyK_S0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_Ksgg_PHSP.dec b/BaBar_2014/B0B0B_Ksgg_PHSP.dec new file mode 100644 index 0000000..d06da2d --- /dev/null +++ b/BaBar_2014/B0B0B_Ksgg_PHSP.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> Ks gammagamma + c.c. # +# # +# F. Di Lodovico # +# # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias myK_S0 K_S0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 myK_S0 gamma gamma PHSP; +Enddecay +# +Decay Myanti-B0 +1.00 myK_S0 gamma gamma PHSP; +Enddecay +# +# finally, force K_S0 to always decay to pi+ pi- +# +Decay myK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_KstarKSPi0_ee_Ball.dec b/BaBar_2014/B0B0B_KstarKSPi0_ee_Ball.dec new file mode 100644 index 0000000..8b12236 --- /dev/null +++ b/BaBar_2014/B0B0B_KstarKSPi0_ee_Ball.dec @@ -0,0 +1,49 @@ +########################################################## +# # +# B0 -> K*0(->K0s pi0) e+ e-, anti-B0 -> X + c.c. # +# # +# # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# created: 14 Nov 2002 # +########################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_S0 K_S0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_KstarKSPi0_mumu_Ball.dec b/BaBar_2014/B0B0B_KstarKSPi0_mumu_Ball.dec new file mode 100644 index 0000000..29b5dc6 --- /dev/null +++ b/BaBar_2014/B0B0B_KstarKSPi0_mumu_Ball.dec @@ -0,0 +1,49 @@ +########################################################## +# # +# B0 -> K*0(->K0s pi0) mu+ mu-, anti-B0 -> X + c.c. # +# # +# # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# created: 14 Nov 2002 # +########################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_S0 K_S0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstaree_Ali.dec b/BaBar_2014/B0B0B_Kstaree_Ali.dec new file mode 100644 index 0000000..ad40d83 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstaree_Ali.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> K*0(generic) e+ e- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# Will clean up lines below when new VSS_BMIX is available +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 anti-K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_Kstaree_KSpi0_Ali.dec b/BaBar_2014/B0B0B_Kstaree_KSpi0_Ali.dec new file mode 100644 index 0000000..8b12236 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstaree_KSpi0_Ali.dec @@ -0,0 +1,49 @@ +########################################################## +# # +# B0 -> K*0(->K0s pi0) e+ e-, anti-B0 -> X + c.c. # +# # +# # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# created: 14 Nov 2002 # +########################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_S0 K_S0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstaree_Kpi_Ali.dec b/BaBar_2014/B0B0B_Kstaree_Kpi_Ali.dec new file mode 100644 index 0000000..3897d6d --- /dev/null +++ b/BaBar_2014/B0B0B_Kstaree_Kpi_Ali.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*0(->K+ pi-) e+ e- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 K- pi+ VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstaremu_KSpi0_PHSP.dec b/BaBar_2014/B0B0B_Kstaremu_KSpi0_PHSP.dec new file mode 100644 index 0000000..d8cdeac --- /dev/null +++ b/BaBar_2014/B0B0B_Kstaremu_KSpi0_PHSP.dec @@ -0,0 +1,51 @@ +############################################################### +# # +# B0 -> K*0(->KS pi0) e+ mu- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil@slac.stanford.edu) # +# created: 23/Feb/04 # +############################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_S0 K_S0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.50 MyK*0 e+ mu- PHOTOS PHSP; +0.50 MyK*0 e- mu+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.50 Myanti-K*0 e+ mu- PHOTOS PHSP; +0.50 Myanti-K*0 e- mu+ PHOTOS PHSP; +Enddecay +# +Decay MyK*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay + +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstarmumu_Ali.dec b/BaBar_2014/B0B0B_Kstarmumu_Ali.dec new file mode 100644 index 0000000..794df72 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstarmumu_Ali.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> K*0(generic) mu+ mu- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# Will clean up lines below when new VSS_BMIX is available +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_Kstarmumu_KSpi0_Ali.dec b/BaBar_2014/B0B0B_Kstarmumu_KSpi0_Ali.dec new file mode 100644 index 0000000..29b5dc6 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstarmumu_KSpi0_Ali.dec @@ -0,0 +1,49 @@ +########################################################## +# # +# B0 -> K*0(->K0s pi0) mu+ mu-, anti-B0 -> X + c.c. # +# # +# # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# created: 14 Nov 2002 # +########################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_S0 K_S0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstarmumu_Kpi_Ali.dec b/BaBar_2014/B0B0B_Kstarmumu_Kpi_Ali.dec new file mode 100644 index 0000000..2e58061 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstarmumu_Kpi_Ali.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*0(->K+ pi-) mu+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 K- pi+ VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstarpmee_Ball.dec b/BaBar_2014/B0B0B_Kstarpmee_Ball.dec new file mode 100644 index 0000000..3897d6d --- /dev/null +++ b/BaBar_2014/B0B0B_Kstarpmee_Ball.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*0(->K+ pi-) e+ e- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 K- pi+ VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstarpmemmup_PHSP.dec b/BaBar_2014/B0B0B_Kstarpmemmup_PHSP.dec new file mode 100644 index 0000000..8dfe193 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstarpmemmup_PHSP.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> K*0(->K+ pi-) e+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 e- mu+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 mu- e+ PHOTOS PHSP; +Enddecay +# +Decay MyK*0 +1.0 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 K- pi+ VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstarpmepmum_PHSP.dec b/BaBar_2014/B0B0B_Kstarpmepmum_PHSP.dec new file mode 100644 index 0000000..7b39490 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstarpmepmum_PHSP.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*0(->K+ pi-) e+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 e+ mu- PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 mu+ e- PHOTOS PHSP; +Enddecay +# +Decay MyK*0 +1.0 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 K- pi+ VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Kstarpmmumu_Ball.dec b/BaBar_2014/B0B0B_Kstarpmmumu_Ball.dec new file mode 100644 index 0000000..2e58061 --- /dev/null +++ b/BaBar_2014/B0B0B_Kstarpmmumu_Ball.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*0(->K+ pi-) mu+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# Will clean up lines below when new VSS_BMIX is availbale +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyK*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 Myanti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*0 +1.0 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0 K- pi+ VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_Xsee_Ali02_mb480_pf410_JetSet02.dec b/BaBar_2014/B0B0B_Xsee_Ali02_mb480_pf410_JetSet02.dec new file mode 100644 index 0000000..3876aa7 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsee_Ali02_mb480_pf410_JetSet02.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> Xsd e+ e-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec new file mode 100644 index 0000000..c8236e0 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.6 1.7; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.6 1.7; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec new file mode 100644 index 0000000..1c18f00 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec new file mode 100644 index 0000000..e1f52b4 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec new file mode 100644 index 0000000..449ed6b --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec new file mode 100644 index 0000000..f8ec44d --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec new file mode 100644 index 0000000..36163e5 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec new file mode 100644 index 0000000..49e8cff --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec new file mode 100644 index 0000000..0ba5005 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec new file mode 100644 index 0000000..7686b6f --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec new file mode 100644 index 0000000..a1f9bf2 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec new file mode 100644 index 0000000..bc0ab1c --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec new file mode 100644 index 0000000..e7c87a0 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb465_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb465_JetSet02.dec new file mode 100644 index 0000000..cb50f4c --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb465_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb470_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb470_JetSet02.dec new file mode 100644 index 0000000..abc16a5 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb470_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb475_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb475_JetSet02.dec new file mode 100644 index 0000000..b1fd27f --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb475_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_JetSet02.dec new file mode 100644 index 0000000..7367264 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec new file mode 100644 index 0000000..710c679 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec new file mode 100644 index 0000000..3b076dc --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec new file mode 100644 index 0000000..ada6742 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec new file mode 100644 index 0000000..68a2344 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec new file mode 100644 index 0000000..c1f73c1 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec new file mode 100644 index 0000000..e41a826 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec new file mode 100644 index 0000000..8d090a0 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec new file mode 100644 index 0000000..e83f471 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec new file mode 100644 index 0000000..4408680 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec new file mode 100644 index 0000000..aec215d --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb485_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb485_JetSet02.dec new file mode 100644 index 0000000..2a4ca1b --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb485_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb490_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb490_JetSet02.dec new file mode 100644 index 0000000..b330ea4 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb490_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb495_JetSet02.dec b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb495_JetSet02.dec new file mode 100644 index 0000000..3d7af67 --- /dev/null +++ b/BaBar_2014/B0B0B_Xsgamma_Kagan99_mb495_JetSet02.dec @@ -0,0 +1,62 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0B_Xsmumu_Ali02_mb480_pf410_JetSet02.dec b/BaBar_2014/B0B0B_Xsmumu_Ali02_mb480_pf410_JetSet02.dec new file mode 100644 index 0000000..be7985e --- /dev/null +++ b/BaBar_2014/B0B0B_Xsmumu_Ali02_mb480_pf410_JetSet02.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> Xsd mu+ mu-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0B_etaee_Ball.dec b/BaBar_2014/B0B0B_etaee_Ball.dec new file mode 100644 index 0000000..3059ceb --- /dev/null +++ b/BaBar_2014/B0B0B_etaee_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> eta e+ e- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 eta e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 eta e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_etaemu_PHSP.dec b/BaBar_2014/B0B0B_etaemu_PHSP.dec new file mode 100644 index 0000000..44e9168 --- /dev/null +++ b/BaBar_2014/B0B0B_etaemu_PHSP.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B0 -> eta e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5 eta mu+ e- PHOTOS PHSP; +0.5 eta mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.5 eta mu+ e- PHOTOS PHSP; +0.5 eta mu- e+ PHOTOS PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0B_etamumu_Ball.dec b/BaBar_2014/B0B0B_etamumu_Ball.dec new file mode 100644 index 0000000..50d3c3f --- /dev/null +++ b/BaBar_2014/B0B0B_etamumu_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> eta mu+ mu- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 eta mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 eta mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_etapee_Ball.dec b/BaBar_2014/B0B0B_etapee_Ball.dec new file mode 100644 index 0000000..cf27705 --- /dev/null +++ b/BaBar_2014/B0B0B_etapee_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> eta' e+ e- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 eta' e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 eta' e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_etapemu_PHSP.dec b/BaBar_2014/B0B0B_etapemu_PHSP.dec new file mode 100644 index 0000000..8da324f --- /dev/null +++ b/BaBar_2014/B0B0B_etapemu_PHSP.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B0 -> eta' e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5 eta' mu+ e- PHOTOS PHSP; +0.5 eta' mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.5 eta' mu+ e- PHOTOS PHSP; +0.5 eta' mu- e+ PHOTOS PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0B_etapmumu_Ball.dec b/BaBar_2014/B0B0B_etapmumu_Ball.dec new file mode 100644 index 0000000..aa1bdf6 --- /dev/null +++ b/BaBar_2014/B0B0B_etapmumu_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> eta' mu+ mu- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 eta' mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 eta' mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_genericK0_ee_Ball.dec b/BaBar_2014/B0B0B_genericK0_ee_Ball.dec new file mode 100644 index 0000000..11f6d33 --- /dev/null +++ b/BaBar_2014/B0B0B_genericK0_ee_Ball.dec @@ -0,0 +1,26 @@ +################################################### +# # +# B0 -> K0 e+ e- # +# # +# + cc # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 2/Jul/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 K0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 anti-K0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_genericK0_mumu_Ball.dec b/BaBar_2014/B0B0B_genericK0_mumu_Ball.dec new file mode 100644 index 0000000..62792db --- /dev/null +++ b/BaBar_2014/B0B0B_genericK0_mumu_Ball.dec @@ -0,0 +1,26 @@ +################################################### +# # +# B0 -> K0 mu+ mu- # +# # +# + cc # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 2/Jul/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 K0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 anti-K0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_genericKstar_ee_Ball.dec b/BaBar_2014/B0B0B_genericKstar_ee_Ball.dec new file mode 100644 index 0000000..ad40d83 --- /dev/null +++ b/BaBar_2014/B0B0B_genericKstar_ee_Ball.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> K*0(generic) e+ e- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# Will clean up lines below when new VSS_BMIX is available +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 anti-K*0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_genericKstar_mumu_Ball.dec b/BaBar_2014/B0B0B_genericKstar_mumu_Ball.dec new file mode 100644 index 0000000..794df72 --- /dev/null +++ b/BaBar_2014/B0B0B_genericKstar_mumu_Ball.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> K*0(generic) mu+ mu- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# Will clean up lines below when new VSS_BMIX is available +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_omegaee_Ball.dec b/BaBar_2014/B0B0B_omegaee_Ball.dec new file mode 100644 index 0000000..6c36161 --- /dev/null +++ b/BaBar_2014/B0B0B_omegaee_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> omega e+ e- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 omega e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 omega e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_omegaemu_PHSP.dec b/BaBar_2014/B0B0B_omegaemu_PHSP.dec new file mode 100644 index 0000000..66555fa --- /dev/null +++ b/BaBar_2014/B0B0B_omegaemu_PHSP.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B0 -> omega e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5 omega mu+ e- PHOTOS PHSP; +0.5 omega mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.5 omega mu+ e- PHOTOS PHSP; +0.5 omega mu- e+ PHOTOS PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0B_omegamumu_Ball.dec b/BaBar_2014/B0B0B_omegamumu_Ball.dec new file mode 100644 index 0000000..6ee88f1 --- /dev/null +++ b/BaBar_2014/B0B0B_omegamumu_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> omega mu+ mu- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 omega mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 omega mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_phiee_PHSP.dec b/BaBar_2014/B0B0B_phiee_PHSP.dec new file mode 100644 index 0000000..3df12fb --- /dev/null +++ b/BaBar_2014/B0B0B_phiee_PHSP.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> phi e+ e- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 7/Dec/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myphi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myphi e+ e- PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myphi e+ e- PHOTOS PHSP; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0B_phiemu_PHSP.dec b/BaBar_2014/B0B0B_phiemu_PHSP.dec new file mode 100644 index 0000000..e78db50 --- /dev/null +++ b/BaBar_2014/B0B0B_phiemu_PHSP.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> phi e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 7/Dec/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myphi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5 Myphi mu+ e- PHOTOS PHSP; +0.5 Myphi mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.5 Myphi mu+ e- PHOTOS PHSP; +0.5 Myphi mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0B_phimumu_PHSP.dec b/BaBar_2014/B0B0B_phimumu_PHSP.dec new file mode 100644 index 0000000..886cd17 --- /dev/null +++ b/BaBar_2014/B0B0B_phimumu_PHSP.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> phi mu+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 7/Dec/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myphi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myphi mu+ mu- PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myphi mu+ mu- PHOTOS PHSP; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0B_pi0ee_Ball.dec b/BaBar_2014/B0B0B_pi0ee_Ball.dec new file mode 100644 index 0000000..2122bad --- /dev/null +++ b/BaBar_2014/B0B0B_pi0ee_Ball.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> pi0 e+ e- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +# B0 -> pi0 e+ e- +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 pi0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 pi0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_pi0emu_PHSP.dec b/BaBar_2014/B0B0B_pi0emu_PHSP.dec new file mode 100644 index 0000000..8efafe9 --- /dev/null +++ b/BaBar_2014/B0B0B_pi0emu_PHSP.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B0 -> pi0 e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5 pi0 mu+ e- PHOTOS PHSP; +0.5 pi0 mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.5 pi0 mu+ e- PHOTOS PHSP; +0.5 pi0 mu- e+ PHOTOS PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0B_pi0mumu_Ball.dec b/BaBar_2014/B0B0B_pi0mumu_Ball.dec new file mode 100644 index 0000000..c1bba01 --- /dev/null +++ b/BaBar_2014/B0B0B_pi0mumu_Ball.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> pi0 mu+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +# B0 -> pi0 mu+ mu- +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 pi0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.0 pi0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0B_rho0ee_Ball.dec b/BaBar_2014/B0B0B_rho0ee_Ball.dec new file mode 100644 index 0000000..fa35f3c --- /dev/null +++ b/BaBar_2014/B0B0B_rho0ee_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> rho0 e+ e- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 rho0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 rho0 e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0B_rho0emu_PHSP.dec b/BaBar_2014/B0B0B_rho0emu_PHSP.dec new file mode 100644 index 0000000..8d9a554 --- /dev/null +++ b/BaBar_2014/B0B0B_rho0emu_PHSP.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B0 -> rho0 e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5 rho0 mu+ e- PHOTOS PHSP; +0.5 rho0 mu- e+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-B0 +0.5 rho0 mu+ e- PHOTOS PHSP; +0.5 rho0 mu- e+ PHOTOS PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0B_rho0mumu_Ball.dec b/BaBar_2014/B0B0B_rho0mumu_Ball.dec new file mode 100644 index 0000000..3b81211 --- /dev/null +++ b/BaBar_2014/B0B0B_rho0mumu_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> rho0 mu+ mu- + c.c. # +# # +# # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 rho0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay Myanti-B0 +1.00 rho0 mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0Bar_Dpipi_D0Kpi_nonres.dec b/BaBar_2014/B0B0Bar_Dpipi_D0Kpi_nonres.dec new file mode 100644 index 0000000..8105386 --- /dev/null +++ b/BaBar_2014/B0B0Bar_Dpipi_D0Kpi_nonres.dec @@ -0,0 +1,41 @@ +########################################################### +# # +# Decay: B0 -> X B0 -> AntiD0 pi+ pi- (nonres) # +# |-> K- pi+ # +# +CC # +# # +# Contacts: # +# onno@slac.stanford.edu # +# 04/15/03 # +# # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +Alias MyK0 K0 +Alias MyAntiK0 anti-K0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD0 pi+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyAntiD0 pi- pi+ PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyAntiD0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0Bar_Dpipi_nonres.dec b/BaBar_2014/B0B0Bar_Dpipi_nonres.dec new file mode 100644 index 0000000..3765f34 --- /dev/null +++ b/BaBar_2014/B0B0Bar_Dpipi_nonres.dec @@ -0,0 +1,65 @@ +########################################################### +# # +# Decay: B0 -> X B0 -> AntiD0 pi+ pi- (nonres) # +# |-> K- pi+ # +# |-> K- pi+ pi0 # +# |-> K- pi+ pi+ pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- ##### +# +CC # +# # +# Contacts: # +# onno@slac.stanford.edu # +# 04/15/03 # +# # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +Alias MyK0 K0 +Alias MyAntiK0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD0 pi+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyAntiD0 pi- pi+ PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0129 K- pi+ pi+ pi- PHSP; +0.0540 MyAntiK0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyAntiD0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0129 K+ pi- pi- pi+ PHSP; +0.0540 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyAntiK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0Bar_Dstarpipi_D0Kpi_nonres.dec b/BaBar_2014/B0B0Bar_Dstarpipi_D0Kpi_nonres.dec new file mode 100644 index 0000000..5b1dfa8 --- /dev/null +++ b/BaBar_2014/B0B0Bar_Dstarpipi_D0Kpi_nonres.dec @@ -0,0 +1,50 @@ +########################################################### +# # +# Decay: B0 -> X B0 -> AntiD*0 pi+ pi- (nonres) # +# |-> AntiD0 pi0 # +# |-> K- pi+ # +# +CC # +# # +# Contacts: # +# onno@slac.stanford.edu # +# 04/15/03 # +# # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyAntiD*0 anti-D*0 +Alias MyD*0 D*0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD*0 pi+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyAntiD*0 pi- pi+ PHSP; +Enddecay +# +Decay MyAntiD*0 +1.000 MyAntiD0 pi0 VSS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyAntiD0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0Bar_Dstarpipi_nonres.dec b/BaBar_2014/B0B0Bar_Dstarpipi_nonres.dec new file mode 100644 index 0000000..8f90566 --- /dev/null +++ b/BaBar_2014/B0B0Bar_Dstarpipi_nonres.dec @@ -0,0 +1,76 @@ +########################################################### +# # +# Decay: B0 -> X B0 -> AntiD*0 pi+ pi- (nonres) # +# |-> AntiD0 pi0 # +# |-> K- pi+ # +# |-> K- pi+ pi0 # +# |-> K- pi+ pi+ pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- ##### +# +CC # +# # +# Contacts: # +# onno@slac.stanford.edu # +# 04/15/03 # +# # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyAntiD*0 anti-D*0 +Alias MyD*0 D*0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +Alias MyK0 K0 +Alias MyAntiK0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD*0 pi+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyAntiD*0 pi- pi+ PHSP; +Enddecay +# +Decay MyAntiD*0 +1.000 MyAntiD0 pi0 VSS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0129 K- pi+ pi+ pi- PHSP; +0.0540 MyAntiK0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyAntiD0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0129 K+ pi- pi- pi+ PHSP; +0.0540 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyAntiK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0_f0f0.dec b/BaBar_2014/B0B0_f0f0.dec new file mode 100644 index 0000000..64ffdf5 --- /dev/null +++ b/BaBar_2014/B0B0_f0f0.dec @@ -0,0 +1,35 @@ +################################################### +# # +# Decay: B0 -> f0 f0 + cc, f0->pi+pi- # +# # +# Author: Pierre-François Giraud # +# Created: 2004-04-07 # +# # +################################################### +# +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf_0 f_0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 Myf_0 Myf_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay MyB0 +1.0000 Myf_0 Myf_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0_phiKSpi0_phiK0LK0S.dec b/BaBar_2014/B0B0_phiKSpi0_phiK0LK0S.dec new file mode 100644 index 0000000..7cd3d31 --- /dev/null +++ b/BaBar_2014/B0B0_phiKSpi0_phiK0LK0S.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B0 -> phi KS pi0 phi->KS0KL0(non-resonant)# +# B0bar -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyPhi MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 MyPhi MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_2K0SK0L.dec b/BaBar_2014/B0B0bar_2K0SK0L.dec new file mode 100644 index 0000000..5a14651 --- /dev/null +++ b/BaBar_2014/B0B0bar_2K0SK0L.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B0 -> K+ K- K0S (non-resonant) + c.c. # +# # +# Author: Haibo Li lihb@slac.stanford.edu # +# Created: 11/05/03 # +# # +################################################### +# +# Decay table for B0 -> KS KS K0L (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK_S0 MyK_S0 K_L0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyK_S0 MyK_S0 K_L0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_2KK0.dec b/BaBar_2014/B0B0bar_2KK0.dec new file mode 100644 index 0000000..625402e --- /dev/null +++ b/BaBar_2014/B0B0bar_2KK0.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> K+ K- K0S (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26/April/00 # +# # +################################################### +# +# Decay table for B0 -> K+ K- K0S (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ K- K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K- K+ K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_2Kpi0.dec b/BaBar_2014/B0B0bar_2Kpi0.dec new file mode 100644 index 0000000..336790d --- /dev/null +++ b/BaBar_2014/B0B0bar_2Kpi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> K+ K- pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> K+ K- pi0 (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ K- pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K- K+ pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_2piK0.dec b/BaBar_2014/B0B0bar_2piK0.dec new file mode 100644 index 0000000..b2ee2df --- /dev/null +++ b/BaBar_2014/B0B0bar_2piK0.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> pi+ pi- K0S (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26/April/00 # +# # +################################################### +# +# Decay table for B0 -> pi+ pi- K0S (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi- pi+ K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_2piK0l.dec b/BaBar_2014/B0B0bar_2piK0l.dec new file mode 100644 index 0000000..5bcaac1 --- /dev/null +++ b/BaBar_2014/B0B0bar_2piK0l.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> pi+ pi- K0L (non-resonant) + c.c. # +# # +# Author: Matt Graham # +# Created: 19/April/04 # +# # +################################################### +# +# Decay table for B0 -> pi+ pi- K0L (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- K_L0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi- pi+ K_L0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_2pipi0.dec b/BaBar_2014/B0B0bar_2pipi0.dec new file mode 100644 index 0000000..a467b36 --- /dev/null +++ b/BaBar_2014/B0B0bar_2pipi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> pi+ pi- pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> pi+ pi- pi0 (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi- pi+ pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_3K0S.dec b/BaBar_2014/B0B0bar_3K0S.dec new file mode 100644 index 0000000..acae1cc --- /dev/null +++ b/BaBar_2014/B0B0bar_3K0S.dec @@ -0,0 +1,35 @@ +################################################### +# # +# B0 -> K+ K- pi0 (non-resonant) + c.c. # +# # +# Author: A. Snyder snyder@slac.stanford.edu # +# Thu Mar 30 10:54:30 PST 2000 # +# # +################################################### +# +# Decay table for B0 -> K+ K- pi0 (non-resonant) +# using phase space +# +# +# +Alias my-K_S0 K_S0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 my-K_S0 my-K_S0 my-K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 my-K_S0 my-K_S0 my-K_S0 PHSP; +Enddecay +End + +Decay my-K_S0 +1.000 pi+ pi- PHSP; +Enddecay diff --git a/BaBar_2014/B0B0bar_3pi0.dec b/BaBar_2014/B0B0bar_3pi0.dec new file mode 100644 index 0000000..a710a6b --- /dev/null +++ b/BaBar_2014/B0B0bar_3pi0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> pi0 pi0 pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> pi0 pi0 pi0 (non-resonant) +# using phase space +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi0 pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_3pi_CP.dec b/BaBar_2014/B0B0bar_3pi_CP.dec new file mode 100644 index 0000000..202d73a --- /dev/null +++ b/BaBar_2014/B0B0bar_3pi_CP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B0 -> pi+ pi- pi0 + c.c. # +# with interference between the rho # +# resonances # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> pi+ pi- pi0 with interference +# between the rho resonances included using the +# BTO3PI_CP model. +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- pi0 BTO3PI_CP dm alpha; +Enddecay +# +Decay Myanti-B0 +1.000 pi- pi+ pi0 BTO3PI_CP dm alpha; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_4pi.dec b/BaBar_2014/B0B0bar_4pi.dec new file mode 100755 index 0000000..5824b9c --- /dev/null +++ b/BaBar_2014/B0B0bar_4pi.dec @@ -0,0 +1,40 @@ +################################################### +# # +# B0 -> pi+ pi- pi+ pi- (non-resonant) + c.c. # +# # +# Author: Fernando Palombo palombo@mi.infn.it # +# Created: 4 March 2004 # +# # +################################################### +# +# B0 -> pi+ pi- pi+ pi- (non-resonant) +# using phase space +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- pi+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi+ pi- pi+ pi- PHSP; +Enddecay +End + + + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_B0toD0Kpi_D0CP.dec b/BaBar_2014/B0B0bar_B0toD0Kpi_D0CP.dec new file mode 100644 index 0000000..8298eee --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toD0Kpi_D0CP.dec @@ -0,0 +1,181 @@ +########################################################################## +# # +# Decay file for: B0 --> D0 K+ pi-, D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D0 K+ pi- +################################################### + +Decay MyB0 + 0.00010 MyD0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 Myanti-D0 K- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toD0Kpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toD0Kpi_D0NonCP.dec new file mode 100644 index 0000000..c77ad84 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toD0Kpi_D0NonCP.dec @@ -0,0 +1,142 @@ +########################################################################## +# # +# Decay file for: B0 --> D0 K+ pi-, D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D0 K+ pi- +################################################### + +Decay MyB0 + 0.00010 MyD0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 Myanti-D0 K- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toD0Kstarpi_D0CP.dec b/BaBar_2014/B0B0bar_B0toD0Kstarpi_D0CP.dec new file mode 100644 index 0000000..2d989c9 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toD0Kstarpi_D0CP.dec @@ -0,0 +1,191 @@ +########################################################################## +# # +# Decay file for: B0 --> D0 K*+ pi-, D0 --> CP modes # +# K*+ --> KS pi+ # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D0 K*+ pi- +################################################### + +Decay MyB0 + 0.00010 MyD0 MyK*+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 Myanti-D0 MyK*- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + +Decay MyK*+ + 1.0000 MyKs pi+ VSS; +Enddecay + +Decay MyK*- + 1.0000 MyKs pi- VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toD0Kstarpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toD0Kstarpi_D0NonCP.dec new file mode 100644 index 0000000..d7a8397 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toD0Kstarpi_D0NonCP.dec @@ -0,0 +1,152 @@ +########################################################################## +# # +# Decay file for: B0 --> D0 K*+ pi-, D0 --> Kpi, Kpipi0, Kpipipi # +# K*+ --> KS pi+ # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D0 K*+ pi- +################################################### + +Decay MyB0 + 0.00010 MyD0 MyK*+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 Myanti-D0 MyK*- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + +Decay MyK*+ + 1.0000 MyKs pi+ VSS; +Enddecay + +Decay MyK*- + 1.0000 MyKs pi- VSS; +Enddecay + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toD0barKpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toD0barKpi_D0NonCP.dec new file mode 100644 index 0000000..dcb0872 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toD0barKpi_D0NonCP.dec @@ -0,0 +1,142 @@ +########################################################################## +# # +# Decay file for: B0 --> D0bar K+ pi-, D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D0bar K+ pi- +################################################### + +Decay MyB0 + 0.00010 Myanti-D0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 MyD0 K- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toD0barKstarpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toD0barKstarpi_D0NonCP.dec new file mode 100644 index 0000000..e9d277c --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toD0barKstarpi_D0NonCP.dec @@ -0,0 +1,152 @@ +########################################################################## +# # +# Decay file for: B0 --> D0bar K*+ pi-, D0 --> Kpi, Kpipi0, Kpipipi # +# K*+ --> KS pi+ # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D0bar K*+ pi- +################################################### + +Decay MyB0 + 0.00010 Myanti-D0 MyK*+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 MyD0 MyK*- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + +Decay MyK*+ + 1.0000 MyKs pi+ VSS; +Enddecay + +Decay MyK*- + 1.0000 MyKs pi- VSS; +Enddecay + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toDstar0Kpi_D0CP.dec b/BaBar_2014/B0B0bar_B0toDstar0Kpi_D0CP.dec new file mode 100644 index 0000000..9f6a876 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toDstar0Kpi_D0CP.dec @@ -0,0 +1,199 @@ +########################################################################## +# # +# Decay file for: B0 --> D*0 K+ pi-, D*0 --> D0pi0, D0gamma # +# D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D*0 K+ pi- +################################################### + +Decay MyB0 + 0.0004 MyD*0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 Myanti-D*0 K- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toDstar0Kpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toDstar0Kpi_D0NonCP.dec new file mode 100644 index 0000000..972cd60 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toDstar0Kpi_D0NonCP.dec @@ -0,0 +1,160 @@ +########################################################################## +# # +# Decay file for: B0 --> D*0 K+ pi-, D*0 --> D0pi0, D0gamma # +# D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D*0 K+ pi- +################################################### + +Decay MyB0 + 0.0004 MyD*0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 Myanti-D*0 K- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toDstar0Kstarpi_D0CP.dec b/BaBar_2014/B0B0bar_B0toDstar0Kstarpi_D0CP.dec new file mode 100644 index 0000000..2674f83 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toDstar0Kstarpi_D0CP.dec @@ -0,0 +1,209 @@ +########################################################################## +# # +# Decay file for: B0 --> D*0 K*+ pi-, D*0 --> D0pi0, D0gamma # +# D0 --> CP modes # +# K*+ --> KS pi+ # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D*0 K*+ pi- +################################################### + +Decay MyB0 + 0.0004 MyD*0 MyK*+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 Myanti-D*0 MyK*- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; + 0.0015 pi+ pi- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + +Decay MyK*+ + 1.0000 MyKs pi+ VSS; +Enddecay + +Decay MyK*- + 1.0000 MyKs pi- VSS; +Enddecay + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toDstar0Kstarpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toDstar0Kstarpi_D0NonCP.dec new file mode 100644 index 0000000..9d58c92 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toDstar0Kstarpi_D0NonCP.dec @@ -0,0 +1,170 @@ +########################################################################## +# # +# Decay file for: B0 --> D*0 K*+ pi-, D*0 --> D0pi0, D0gamma # +# D0 --> Kpi, Kpipi0, Kpipipi # +# K*+ --> KS pi+ # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D*0 K*+ pi- +################################################### + +Decay MyB0 + 0.0004 MyD*0 MyK*+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 Myanti-D*0 MyK*- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + +Decay MyK*+ + 1.0000 MyKs pi+ VSS; +Enddecay + +Decay MyK*- + 1.0000 MyKs pi- VSS; +Enddecay + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toDstar0barKpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toDstar0barKpi_D0NonCP.dec new file mode 100644 index 0000000..267e8f8 --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toDstar0barKpi_D0NonCP.dec @@ -0,0 +1,160 @@ +########################################################################## +# # +# Decay file for: B0 --> D*0bar K+ pi-, D*0 --> D0pi0, D0gamma # +# D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D*0bar K+ pi- +################################################### + +Decay MyB0 + 0.0004 Myanti-D*0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 MyD*0 K- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_B0toDstar0barKstarpi_D0NonCP.dec b/BaBar_2014/B0B0bar_B0toDstar0barKstarpi_D0NonCP.dec new file mode 100644 index 0000000..db06eda --- /dev/null +++ b/BaBar_2014/B0B0bar_B0toDstar0barKstarpi_D0NonCP.dec @@ -0,0 +1,170 @@ +########################################################################## +# # +# Decay file for: B0 --> D*0bar K*+ pi-, D*0 --> D0pi0, D0gamma # +# D0 --> Kpi, Kpipi0, Kpipipi # +# K*+ --> KS pi+ # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# Updated: Chih-hsiang Cheng (LLNL) Aug.13, 2003 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +################################################### +# B0 -> D*0bar K*+ pi- +################################################### + +Decay MyB0 + 0.0004 Myanti-D*0 MyK*+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 MyD*0 MyK*- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + +Decay MyK*+ + 1.0000 MyKs pi+ VSS; +Enddecay + +Decay MyK*- + 1.0000 MyKs pi- VSS; +Enddecay + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_e.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_e.dec new file mode 100644 index 0000000..d93f207 --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_e.dec @@ -0,0 +1,180 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias SigD*+ D*+ +Alias SigD*- D*- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 SigD*- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 SigD*+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +1.00 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +1.00 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD*+ +1.00 D0 pi+ VSS; +Enddecay +# +Decay SigD*- +1.00 anti-D0 pi- VSS; +Enddecay +# +# +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_excl.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_excl.dec new file mode 100644 index 0000000..499ded5 --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_excl.dec @@ -0,0 +1,276 @@ +## Adjusted for B->d* tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias SigD*+ D*+ +Alias SigD*- D*- +Alias SigD0 D0 +Alias Siganti-D0 anti-D0 +Alias SigK_1- K_1- +Alias SigK_1+ K_1+ +Alias SigK*0 K*0 +Alias Siganti-K*0 anti-K*0 +Alias Sigomega omega +Alias SigK*+ K*+ +Alias SigK*- K*- +Alias SigK*+S K*+ +Alias SigK*-S K*- +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 SigD*- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 SigD*+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +0.5 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +0.5 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +0.5 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.5 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD*+ +1.00 SigD0 pi+ VSS; +Enddecay +# +Decay SigD*- +1.00 Siganti-D0 pi- VSS; +Enddecay +# +Decay SigD0 +0.0383 K- pi+ PHSP; +0.1390 K- pi+ pi0 D_DALITZ; +0.0060 K- pi+ rho0 PHSP; +0.0114 Siganti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0360 Mya_1+ K- SVS; +0.0175 Siganti-K*0 pi+ pi- PHSP; +0.0067 SigK_1- pi+ SVS; +0.0174 K- pi+ pi+ pi- PHSP; +0.0185 Myanti-K0 pi+ pi- D_DALITZ; +0.0064 Sigomega Myanti-K0 SVS; +0.0342 SigK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0029 Myanti-K0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Siganti-D0 +0.0383 K+ pi- PHSP; +0.1390 K+ pi- pi0 D_DALITZ; +0.0060 K+ pi- rho0 PHSP; +0.0146 SigK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0730 Mya_1- K+ SVS; +0.0225 SigK*0 pi+ pi- PHSP; +0.0107 SigK_1+ pi- SVS; +0.0174 K+ pi- pi+ pi- PHSP; +0.0540 MyK0 pi+ pi- D_DALITZ; +0.0210 Sigomega MyK0 SVS; +0.0610 SigK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0085 MyK0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay SigK*0 +0.6657 K+ pi- VSS; +0.1140 MyK0 pi0 VSS; +Enddecay +# +Decay Siganti-K*0 +0.6657 K- pi+ VSS; +0.1140 Myanti-K0 pi0 VSS; +Enddecay +# +Decay SigK*+ +0.2284 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +# +Decay SigK*- +0.2284 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay SigK*+S +1.0 MyK0 pi+ VSS; +Enddecay +# +Decay SigK*-S +1.0 Myanti-K0 pi- VSS; +Enddecay +# +Decay SigK_1+ +0.0961 rho+ MyK0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0832 SigK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0122 SigK*+S pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0024 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi+ pi- PHSP; +0.0427 MyK0 pi+ pi0 PHSP; +Enddecay +# +Decay SigK_1- +0.0961 rho- Myanti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0832 Siganti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0122 SigK*-S pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0024 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +0.0427 Myanti-K0 pi- pi0 PHSP; +Enddecay +# +Decay Sigomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# Breco cocktail: +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_mu.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_mu.dec new file mode 100644 index 0000000..b226b0c --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_d0_mu.dec @@ -0,0 +1,180 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias SigD*+ D*+ +Alias SigD*- D*- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 SigD*- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 SigD*+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +1.00 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +1.00 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD*+ +1.00 D0 pi+ VSS; +Enddecay +# +Decay SigD*- +1.00 anti-D0 pi- VSS; +Enddecay +# +# +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_e.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_e.dec new file mode 100644 index 0000000..1b4a975 --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_e.dec @@ -0,0 +1,180 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias SigD*+ D*+ +Alias SigD*- D*- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 SigD*- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 SigD*+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +1.00 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +1.00 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD*+ +1.00 D+ pi0 VSS; +Enddecay +# +Decay SigD*- +1.00 D- pi0 VSS; +Enddecay +# +# +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_excl.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_excl.dec new file mode 100644 index 0000000..785632a --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_excl.dec @@ -0,0 +1,246 @@ +## Adjusted for B->d* tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias SigD*+ D*+ +Alias SigD*- D*- +Alias SigD+ D+ +Alias SigD- D- +Alias SigK*+ K*+ +Alias SigK*- K*- +Alias SigK'_10 K'_10 +Alias Siganti-K'_10 anti-K'_10 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 SigD*- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 SigD*+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +0.50 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +0.50 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +0.50 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.50 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD*+ +1.00 SigD+ pi0 VSS; +Enddecay +# +Decay SigD*- +1.00 SigD- pi0 VSS; +Enddecay +# +Decay SigD+ +0.0900 K- pi+ pi+ D_DALITZ; +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0299 Siganti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0067 Myanti-K*0 pi0 pi+ PHSP; +0.0039 SigK*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +0.0099 Myanti-K0 pi+ PHSP; +0.0333 Myanti-K0 pi+ pi0 D_DALITZ; +0.0135 Mya_1+ Myanti-K0 SVS; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay SigD- +0.0900 K+ pi- pi- D_DALITZ; +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0299 SigK'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0067 MyK*0 pi0 pi- PHSP; +0.0039 SigK*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +0.0099 MyK0 pi- PHSP; +0.0333 MyK0 pi- pi0 D_DALITZ; +0.0135 Mya_1- MyK0 SVS; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay SigK*+ +0.2284 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +# +Decay SigK*- +0.2284 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay SigK'_10 +0.3537 SigK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2064 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0034 rho0 MyK0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0002 Myomega MyK0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0046 MyK0 pi+ pi- PHSP; +Enddecay +# +Decay Siganti-K'_10 +0.3537 SigK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2064 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0034 rho0 Myanti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0002 Myomega Myanti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0046 Myanti-K0 pi+ pi- PHSP; +Enddecay +# +# Breco cocktail: +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_mu.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_mu.dec new file mode 100644 index 0000000..135f13a --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dstartaunu_dch_mu.dec @@ -0,0 +1,180 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias SigD*+ D*+ +Alias SigD*- D*- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 SigD*- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 SigD*+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +1.00 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +1.00 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD*+ +1.00 D+ pi0 VSS; +Enddecay +# +Decay SigD*- +1.00 D- pi0 VSS; +Enddecay +# +# +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_e.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_e.dec new file mode 100644 index 0000000..4257c4a --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_e.dec @@ -0,0 +1,170 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 D- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 D+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +1.00 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +1.00 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +# +# +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_excl.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_excl.dec new file mode 100644 index 0000000..e5702d1 --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_excl.dec @@ -0,0 +1,236 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias SigD+ D+ +Alias SigD- D- +Alias SigK*+ K*+ +Alias SigK*- K*- +Alias SigK'_10 K'_10 +Alias Siganti-K'_10 anti-K'_10 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 SigD- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 SigD+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +0.50 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +0.50 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +0.50 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.50 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD+ +0.0900 K- pi+ pi+ D_DALITZ; +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0299 Siganti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0067 Myanti-K*0 pi0 pi+ PHSP; +0.0039 SigK*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +0.0099 Myanti-K0 pi+ PHSP; +0.0333 Myanti-K0 pi+ pi0 D_DALITZ; +0.0135 Mya_1+ Myanti-K0 SVS; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay SigD- +0.0900 K+ pi- pi- D_DALITZ; +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0299 SigK'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0067 MyK*0 pi0 pi- PHSP; +0.0039 SigK*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +0.0099 MyK0 pi- PHSP; +0.0333 MyK0 pi- pi0 D_DALITZ; +0.0135 Mya_1- MyK0 SVS; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay SigK*+ +0.2284 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +# +Decay SigK*- +0.2284 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay SigK'_10 +0.3537 SigK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2064 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0034 rho0 MyK0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0002 Myomega MyK0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0046 MyK0 pi+ pi- PHSP; +Enddecay +# +Decay Siganti-K'_10 +0.3537 SigK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2064 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0034 rho0 Myanti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0002 Myomega Myanti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0046 Myanti-K0 pi+ pi- PHSP; +Enddecay +# +# Breco cocktail: +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_mu.dec b/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_mu.dec new file mode 100644 index 0000000..d024f7b --- /dev/null +++ b/BaBar_2014/B0B0bar_BrecoCocktail_dtaunu_mu.dec @@ -0,0 +1,170 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for neutral B mesons. + +Alias SigB0 B0 +Alias SigAntiB0 anti-B0 +Alias SigTau+ tau+ +Alias SigTau- tau- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +ChargeConj SigB0 SigAntiB0 +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.000 SigB0 SigAntiB0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Force signal decays +# +Decay SigB0 +1.00 D- SigTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigAntiB0 +1.00 D+ SigTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay SigTau+ +1.00 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigTau- +1.00 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +# +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_Ksnunu_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_Ksnunu_cocktail.dec new file mode 100644 index 0000000..cc26228 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_Ksnunu_cocktail.dec @@ -0,0 +1,162 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +1.000 K_S0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay anti-B0 +1.000 K_S0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_Kstar0nunu_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_Kstar0nunu_cocktail.dec new file mode 100644 index 0000000..8b1c828 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_Kstar0nunu_cocktail.dec @@ -0,0 +1,181 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias SigK*0 K*0 +Alias Siganti-K*0 anti-K*0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +1.000 K_S0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay anti-B0 +1.000 K_S0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay + +# +Decay B0 +1.0000 SigK*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay anti-B0 +1.0000 Siganti-K*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay SigK*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay Siganti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail.dec new file mode 100644 index 0000000..6c634a5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail.dec @@ -0,0 +1,146 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.589 K+ pi- pi- D_DALITZ; +0.317 MyKs pi- pi0 D_DALITZ; +0.094 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.589 K- pi+ pi+ D_DALITZ; +0.317 MyKs pi+ pi0 D_DALITZ; +0.094 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.1.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.1.dec new file mode 100644 index 0000000..4bbbc46 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.1.dec @@ -0,0 +1,150 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). +## +## Modified by Shahram Rahatlou to introduce dGamma/Gamma = 0.1 +## July 31st, 2001 +## $Id: B0B0bar_Breco_DX+DstarX_cocktail_dgog=0.1.dec,v 1.1 2001/08/01 02:39:56 rahatlou Exp $ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Define dgog 0.1 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.2.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.2.dec new file mode 100644 index 0000000..d4bcb30 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.2.dec @@ -0,0 +1,150 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). +## +## Modified by Shahram Rahatlou to introduce dGamma/Gamma = 0.2 +## April 26th, 2001 +## $Id: B0B0bar_Breco_DX+DstarX_cocktail_dgog=0.2.dec,v 1.1 2001/04/26 17:20:00 rahatlou Exp $ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Define dgog 0.2 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.4.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.4.dec new file mode 100644 index 0000000..30b48a4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_cocktail_dgog=0.4.dec @@ -0,0 +1,150 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). +## +## Modified by Shahram Rahatlou to introduce dGamma/Gamma = 0.4 +## July 31st, 2001 +## $Id: B0B0bar_Breco_DX+DstarX_cocktail_dgog=0.4.dec,v 1.1 2001/08/01 02:39:56 rahatlou Exp $ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Define dgog 0.4 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_etau_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_etau_cocktail.dec new file mode 100644 index 0000000..05e6669 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_etau_cocktail.dec @@ -0,0 +1,167 @@ +#------------------------------------------------------------------ +# B0->nunubar vs Breco cocktail .dec file +# Chris Potter +# University of Oregon +# 13 September 2002 +#------------------------------------------------------------------ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +0.50000 tau+ e- SLL; +0.50000 tau- e+ SLL; +Enddecay +# +Decay anti-B0 +0.50000 tau+ e- SLL; +0.50000 tau- e+ SLL; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_mutau_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_mutau_cocktail.dec new file mode 100644 index 0000000..4609473 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_mutau_cocktail.dec @@ -0,0 +1,167 @@ +#------------------------------------------------------------------ +# B0->nunubar vs Breco cocktail .dec file +# Chris Potter +# University of Oregon +# 13 September 2002 +#------------------------------------------------------------------ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +0.50000 tau+ mu- SLL; +0.50000 tau- mu+ SLL; +Enddecay +# +Decay anti-B0 +0.50000 tau+ mu- SLL; +0.50000 tau- mu+ SLL; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_nunubar_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_nunubar_cocktail.dec new file mode 100644 index 0000000..c2bbe32 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_nunubar_cocktail.dec @@ -0,0 +1,165 @@ +#------------------------------------------------------------------ +# B0->nunubar vs Breco cocktail .dec file +# Chris Potter +# University of Oregon +# 13 September 2002 +#------------------------------------------------------------------ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +1.0000 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay anti-B0 +1.0000 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_nunubargamma_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_nunubargamma_cocktail.dec new file mode 100644 index 0000000..83cdc39 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_nunubargamma_cocktail.dec @@ -0,0 +1,165 @@ +#------------------------------------------------------------------ +# B0->nunubar vs Breco cocktail .dec file +# Chris Potter +# University of Oregon +# 13 September 2002 +#------------------------------------------------------------------ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +1.0000 nu_e anti-nu_e gamma PHOTOS PHSP ; +Enddecay +# +Decay anti-B0 +1.0000 nu_e anti-nu_e gamma PHOTOS PHSP ; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_pi0nunu_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_pi0nunu_cocktail.dec new file mode 100644 index 0000000..d4fe0b6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_pi0nunu_cocktail.dec @@ -0,0 +1,162 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +1.000 pi0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay anti-B0 +1.000 pi0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_DXpDstarX_tauptaum_cocktail.dec b/BaBar_2014/B0B0bar_Breco_DXpDstarX_tauptaum_cocktail.dec new file mode 100644 index 0000000..2c8ace9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_DXpDstarX_tauptaum_cocktail.dec @@ -0,0 +1,162 @@ +## The Breco cocktail for neutral B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay B0 +1.0000 tau+ tau- SLL; +Enddecay +# +Decay anti-B0 +1.0000 tau+ tau- SLL; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/B0B0bar_Breco_cocktail_dgog=0.2_qop=1.04_z=0.dec b/BaBar_2014/B0B0bar_Breco_cocktail_dgog=0.2_qop=1.04_z=0.dec new file mode 100644 index 0000000..afed3bc --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_cocktail_dgog=0.2_qop=1.04_z=0.dec @@ -0,0 +1,157 @@ +################################################################### +# # +# B0 -> D(*)- [pi+/rho+/a1+] # +# # +# The Breco cocktail for neutral B meson # +# (originally mixed by Ian Stark) # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.2 # +# |q/p| = 1.04 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +################################################################### + +Define dgog 0.2 +Define absqop 1.04 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_Breco_cocktail_dgog=0.4_qop=1.08_z=0.dec b/BaBar_2014/B0B0bar_Breco_cocktail_dgog=0.4_qop=1.08_z=0.dec new file mode 100644 index 0000000..90c335a --- /dev/null +++ b/BaBar_2014/B0B0bar_Breco_cocktail_dgog=0.4_qop=1.08_z=0.dec @@ -0,0 +1,157 @@ +################################################################### +# # +# B0 -> D(*)- [pi+/rho+/a1+] # +# # +# The Breco cocktail for neutral B meson # +# (originally mixed by Ian Stark) # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.4 # +# |q/p| = 1.08 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +################################################################### + +Define dgog 0.4 +Define absqop 1.08 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +Decay MyB0 +0.123 MyD*- pi+ SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD- pi+ PHSP; +0.164 rho+ MyD- SVS; +0.062 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.123 MyD*+ pi- SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.303 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.285 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.063 MyD+ pi- PHSP; +0.164 rho- MyD+ SVS; +0.062 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_Chi0cKs.dec b/BaBar_2014/B0B0bar_Chi0cKs.dec new file mode 100644 index 0000000..7e0bef8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi0cKs.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: anti-B0 -> Chic(0) K0s, B0 -> X # +# |-> Jpsi gamma |->pi+pi- # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 19/11/03 # +# +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias Mychi_c0 chi_c0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Mychi_c0 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mychi_c0 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mychi_c0 +1.0 gamma MyJpsi PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi0cKs_All.dec b/BaBar_2014/B0B0bar_Chi0cKs_All.dec new file mode 100644 index 0000000..cb23c91 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi0cKs_All.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> Chic(0) K0s, B0 -> X # +# |-> X |->pi+pi- # +# # +# # +# + cc # +# # +# Author: R.Faccini # +# Created: 14/Aug/01 # +# Mail: rfaccini@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 chi_c0 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 chi_c0 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Chi0cKstar_K.dec b/BaBar_2014/B0B0bar_Chi0cKstar_K.dec new file mode 100644 index 0000000..c317dd7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi0cKstar_K.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: anti-B0 -> Chic(0) K*0, B0 -> X # +# |-> Jpsi gamma K+ pi- # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 19/11/03 # +# +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c0 chi_c0 +Alias MyJpsi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Mychi_c0 MyKstar0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 Mychi_c0 MyantiKstar0 PHSP; +Enddecay +# +Decay Mychi_c0 +1.0 gamma MyJpsi PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi0cKstar_KS.dec b/BaBar_2014/B0B0bar_Chi0cKstar_KS.dec new file mode 100644 index 0000000..bcf8933 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi0cKstar_KS.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: anti-B0 -> Chic(0) K*0, B0 -> X # +# |-> Jpsi gamma Ks |->pi+pi- pi0 # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 19/11/03 # +# +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias Mychi_c0 chi_c0 +Alias MyJpsi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Mychi_c0 MyKstar0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mychi_c0 MyantiKstar0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mychi_c0 +1.0 gamma MyJpsi PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi1cKL.dec b/BaBar_2014/B0B0bar_Chi1cKL.dec new file mode 100644 index 0000000..842f6d5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKL.dec @@ -0,0 +1,43 @@ +################################################################### +# B0~ --> chi1c K0L B0 --> Generic # +# | # +# | # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# modified: D. Wright 2-12-99 +# Mail: WRIGHT@SLAC.STANFORD.EDU +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi1cKL_E1.dec b/BaBar_2014/B0B0bar_Chi1cKL_E1.dec new file mode 100644 index 0000000..6c9a4ce --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKL_E1.dec @@ -0,0 +1,65 @@ +################################################################### +# B0~ --> chi1c K0L B0 --> Generic # +# | # +# | # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# modified: D. Wright 2-12-99 +# Mail: WRIGHT@SLAC.STANFORD.EDU +################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi1cKS.dec b/BaBar_2014/B0B0bar_Chi1cKS.dec new file mode 100644 index 0000000..4f1ee86 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKS.dec @@ -0,0 +1,47 @@ +################################################################### +# B0~ --> chi1c K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyK_S0 K_S0 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.00000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi1cKS_00.dec b/BaBar_2014/B0B0bar_Chi1cKS_00.dec new file mode 100644 index 0000000..0750e84 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKS_00.dec @@ -0,0 +1,48 @@ +################################################################### +# B0~ --> chi1c K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +################################################################### +# +Define dm .464e12 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyK_S0 K_S0 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.00000 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi1cKS_E1.dec b/BaBar_2014/B0B0bar_Chi1cKS_E1.dec new file mode 100644 index 0000000..01d421d --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKS_E1.dec @@ -0,0 +1,70 @@ +################################################################### +# B0~ --> chi1c K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyK_S0 K_S0 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.00000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi1cKS_dgog=0.2_qop=1.04_z=0.dec b/BaBar_2014/B0B0bar_Chi1cKS_dgog=0.2_qop=1.04_z=0.dec new file mode 100644 index 0000000..1a6ac2f --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKS_dgog=0.2_qop=1.04_z=0.dec @@ -0,0 +1,59 @@ +################################################################### +# B0~ --> chi1c K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Delta(Gamma)/Gamma=0.2 # +# |q/p| = 1.04 # +# # +# Author: F. Sandrelli, F. Martinez-Vidal # +# Created: 16/April/2002 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +Define dgog 0.2 +Define absqop -1.04 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7761517725 +# arg(q/p) is consistent with sin2b=0.7 +# +# dGamma/Gamma definition is opposite between VSS_BMIX & SVS_CPLH +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 Mychi_c1 MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mychi_c1 MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Chi1cKS_dgog=0.4_qop=1.08_z=0.dec b/BaBar_2014/B0B0bar_Chi1cKS_dgog=0.4_qop=1.08_z=0.dec new file mode 100644 index 0000000..0083319 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKS_dgog=0.4_qop=1.08_z=0.dec @@ -0,0 +1,59 @@ +################################################################### +# B0~ --> chi1c K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Delta(Gamma)/Gamma=0.4 # +# |q/p| = 1.08 # +# # +# Author: F.Sandrelli, F. Martinez-Vidal # +# Created: 16/April/2002 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +Define dgog 0.4 +Define absqop -1.08 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7783059311 +# arg(q/p) is consistent with sin2b=0.7 +# +# dGamma/Gamma definition is opposite between VSS_BMIX & SVS_CPLH +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 Mychi_c1 MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mychi_c1 MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Chi1cKs2Pi0.dec b/BaBar_2014/B0B0bar_Chi1cKs2Pi0.dec new file mode 100644 index 0000000..cbcdf61 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKs2Pi0.dec @@ -0,0 +1,47 @@ +###################################################################### +# B0~ --> chi1c K0s B0 --> Generic # +# | | # +# | |-->pi0pi0 # +# | # +# | # +# J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# Author: D. Payne 13/9/2000 # +# Mail: djpayne@slac.stanford.edu # +###################################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi0 pi0 (100%) +Decay MyK0s +1.0000 pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Chi1cKs2Pi0_E1.dec b/BaBar_2014/B0B0bar_Chi1cKs2Pi0_E1.dec new file mode 100644 index 0000000..14b2af2 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKs2Pi0_E1.dec @@ -0,0 +1,71 @@ +###################################################################### +# B0~ --> chi1c K0s B0 --> Generic # +# | | # +# | |-->pi0pi0 # +# | # +# | # +# J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# Author: D. Payne 13/9/2000 # +# Mail: djpayne@slac.stanford.edu # +###################################################################### +# +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi0 pi0 (100%) +Decay MyK0s +1.0000 pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Chi1cKs_All.dec b/BaBar_2014/B0B0bar_Chi1cKs_All.dec new file mode 100644 index 0000000..2127bf7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKs_All.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> chic(1) K0s, B0 -> X # +# |-> X |->pi+pi- # +# # +# # +# + cc # +# # +# Author: R. Faccini # +# Created: 14/Aug/01 # +# Mail: rfaccini@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 chi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 chi_c1 MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Chi1cKstar_chgd_sp3.dec b/BaBar_2014/B0B0bar_Chi1cKstar_chgd_sp3.dec new file mode 100644 index 0000000..401c5ce --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKstar_chgd_sp3.dec @@ -0,0 +1,94 @@ +################################################################### +# B0~ --> chi1c K*0~ B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# + cc # +# # +# Author: G. London 28/1/99 # +# Modified: S. T'Jampens 07/03/2000 # +# Mail: TJAMPENS@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +Define beta 0.39 +# +################################################################### +#Define the helicity amplitudes (cleo values of J/Psi K*0) +# +# modulus +# +Define Hplus 0.68284 +Define Hzero 0.72111 +Define Hminus 0.11716 +# +# phases +# +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyantiKstar0 SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K+ pi- (100%) +Decay MyKstar0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chi1cKstar_sp3.dec b/BaBar_2014/B0B0bar_Chi1cKstar_sp3.dec new file mode 100644 index 0000000..57573e7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chi1cKstar_sp3.dec @@ -0,0 +1,100 @@ +################################################################### +# B0~ --> chi1c K*~ B0 --> Generic # +# | | # +# | |-->Ks pi0 # +# | | # +# J/psi gam |->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Modified: S. T'Jampens 02/21/2000 # +# Mail: WRIGHT@SLAC.STANFORD.EDU +################################################################### +# +Define beta 0.39 +# +################################################################## +#Define the transversity amplitudes (Cleo values of B0 -> J/PsiK*0) +# +# modulus +Define Apara 0.56569 +# do not forget the sqrt(2) in Azero +Define Azero 1.01980 +Define Aperp 0.40000 +# +# phases +# +Define phApara 0.0 +Define phAzero 0.0 +Define phAperp 0.0 +# +################################################################## +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# modulus +# put the values measured by the Crystal Barrel experiment: +# cf M. Oreglia et al., Phys Rev D25, 2259 (1982) +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +################################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyKstar0 SVV_CP beta dm 1.0 Apara phApara Azero phAzero Aperp phAperp; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyantiKstar0 SVV_CP beta dm 1.0 Apara phApara Azero phAzero Aperp phAperp; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +# antiK* --> K0s pi0 (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay + +# +Decay MyK_S0 +1.00000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chic1Kstar_KpPim_RunIpIIPol.dec b/BaBar_2014/B0B0bar_Chic1Kstar_KpPim_RunIpIIPol.dec new file mode 100644 index 0000000..cbf91eb --- /dev/null +++ b/BaBar_2014/B0B0bar_Chic1Kstar_KpPim_RunIpIIPol.dec @@ -0,0 +1,96 @@ +################################################################### +# B0~ --> chi1c K*0~ B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# + cc # +# # +# Author: G. London 28/1/99 # +# Modified: S. T'Jampens 07/03/2000 # +# Mail: TJAMPENS@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +# Copied from B0B0bar_Chi1cKstar_chgd_sp3.dec and updated with # +# runI+II polarisation. Marc Verderi, Philippe Grenier 01 Jun 2004# +################################################################### +# +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: (J/PsiK* amplitudes) +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyantiKstar0 SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K+ pi- (100%) +Decay MyKstar0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Chic1Kstar_KsPi0_RunIpIIPol.dec b/BaBar_2014/B0B0bar_Chic1Kstar_KsPi0_RunIpIIPol.dec new file mode 100644 index 0000000..4227557 --- /dev/null +++ b/BaBar_2014/B0B0bar_Chic1Kstar_KsPi0_RunIpIIPol.dec @@ -0,0 +1,100 @@ +################################################################### +# B0~ --> chi1c K*~ B0 --> Generic # +# | | # +# | |-->Ks pi0 # +# | | # +# J/psi gam |->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Modified: S. T'Jampens 02/21/2000 # +# Mail: WRIGHT@SLAC.STANFORD.EDU # +# Copied from B0B0bar_Chi1cKstar_sp3.dec and updated with runI+II# +# J/PsiK* polarisation. Marc Verderi, Philippe Grenier 01 Jun 2004# +################################################################### +# +# sin2beta = 0.731: (world average at that time) +# ----------------- +Define beta 0.41 +# +# Define the transversity amplitudes: +# ----------------------------------- +# Values measured by Babar (BAD#673/752) +Define Aplus 0.4517 +Define Azero 1.0640 +Define Aminus 0.4796 +# +Define phAplus 3.55 +Define phAzero 0.00 +Define phAminus 2.96 +# +################################################################## +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# modulus +# put the values measured by the Crystal Barrel experiment: +# cf M. Oreglia et al., Phys Rev D25, 2259 (1982) +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +################################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mychi_c1 MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 Mychi_c1 MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +# antiK* --> K0s pi0 (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay + +# +Decay MyK_S0 +1.00000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0D0_K3piK3pi.dec b/BaBar_2014/B0B0bar_D0D0_K3piK3pi.dec new file mode 100644 index 0000000..198e495 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_K3piK3pi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_K3piKspipi.dec b/BaBar_2014/B0B0bar_D0D0_K3piKspipi.dec new file mode 100644 index 0000000..1377962 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_K3piKspipi.dec @@ -0,0 +1,165 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_KpiK3pi.dec b/BaBar_2014/B0B0bar_D0D0_KpiK3pi.dec new file mode 100644 index 0000000..6c0770a --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_KpiK3pi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_KpiKpi.dec b/BaBar_2014/B0B0bar_D0D0_KpiKpi.dec new file mode 100644 index 0000000..1ec42be --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_KpiKpi.dec @@ -0,0 +1,129 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_KpiKpipi0.dec b/BaBar_2014/B0B0bar_D0D0_KpiKpipi0.dec new file mode 100644 index 0000000..e98975b --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_KpiKpipi0.dec @@ -0,0 +1,129 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_KpiKspipi.dec b/BaBar_2014/B0B0bar_D0D0_KpiKspipi.dec new file mode 100644 index 0000000..e235754 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_KpiKspipi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_D0D0_Kpipi0K3pi.dec new file mode 100644 index 0000000..f078251 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_Kpipi0K3pi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_D0D0_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..fb4c429 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_Kpipi0Kpipi0.dec @@ -0,0 +1,129 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_D0D0_Kpipi0Kspipi.dec new file mode 100644 index 0000000..385b111 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_Kpipi0Kspipi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0D0_KspipiKspipi.dec b/BaBar_2014/B0B0bar_D0D0_KspipiKspipi.dec new file mode 100644 index 0000000..a12e6b1 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0D0_KspipiKspipi.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.500 MyD0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.500 MyD0_2 Myanti-D0_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D0K3pi_D0barKpi_K0S.dec b/BaBar_2014/B0B0bar_D0K3pi_D0barKpi_K0S.dec new file mode 100644 index 0000000..2454e2f --- /dev/null +++ b/BaBar_2014/B0B0bar_D0K3pi_D0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D0D0barK0s anti-B0->X # +# D0 to k3pi # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0k3pi MyD0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0K3pi_Dstar0barKpi_K0S.dec b/BaBar_2014/B0B0bar_D0K3pi_Dstar0barKpi_K0S.dec new file mode 100644 index 0000000..944d9cd --- /dev/null +++ b/BaBar_2014/B0B0bar_D0K3pi_Dstar0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D0D*0barK0s anti-B0->X # +# D0 to k3pi # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0k3pi MyD*0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0KS.dec b/BaBar_2014/B0B0bar_D0KS.dec new file mode 100644 index 0000000..382cba7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0KS.dec @@ -0,0 +1,131 @@ +################################################### +# # +# B0 -> D0 Ks + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: S.Prell (UC San Diego) # +# S.Rahatlou (UC San Diego) # +# # +# Date: July 2002 # +# # +# Comment:The time evolution as given in Kayser & # +# London (PRD 61, 116013) is not # +# implemented, yet. This needs to be # +# added for time-dependent CP-violation # +# studies. # +# +# Shahram Rahatlou, 15 Dec 2003: +# 1/ change the D0 BR to be the same used in D0K*0 +# 2/ turn on mixing +# 3/ change the B0 BR to have 80% Vcb and 20% Vub +################################################### +# +Alias MyB0bar anti-B0 +Alias MyB0 B0 + +Alias MyD0 D0 +Alias MyD0bar anti-D0 + +Alias MyKs K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias Myomega omega +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.200 MyD0 MyKs PHSP; +0.800 MyD0bar MyKs PHSP; +Enddecay +# +Decay MyB0bar +0.800 MyD0 MyKs PHSP; +0.200 MyD0bar MyKs PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 MyK0bar pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0bar +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyK0bar +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0KS_Kpi.dec b/BaBar_2014/B0B0bar_D0KS_Kpi.dec new file mode 100644 index 0000000..1701846 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0KS_Kpi.dec @@ -0,0 +1,62 @@ +################################################### +# # +# B0 -> D0 Ks + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: S.Prell (UC San Diego) # +# S.Rahatlou (UC San Diego) # +# # +# Date: July 2002 # +# # +# Comment:The time evolution as given in Kayser & # +# London (PRD 61, 116013) is not # +# implemented, yet. This needs to be # +# added for time-dependent CP-violation # +# studies. # +################################################### +# +Alias MyB0bar anti-B0 +Alias MyB0 B0 + +Alias MyD0 D0 +Alias MyD0bar anti-D0 + +Alias MyKs K_S0 +# +Define dm 0.0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.500 MyD0 MyKs PHSP; +0.500 MyD0bar MyKs PHSP; +Enddecay +# +Decay MyB0bar +0.500 MyD0 MyKs PHSP; +0.500 MyD0bar MyKs PHSP; +Enddecay +# +Decay MyD0 +0.0828 K- pi+ PHSP; +#0.1620 K- pi+ pi+ pi- PHSP; +#0.3010 K- pi+ pi0 D_DALITZ; +#0.4540 K_S0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyD0bar +0.0828 K+ pi- PHSP; +#0.1620 K+ pi- pi- pi+ PHSP; +#0.3010 K+ pi- pi0 D_DALITZ; +#0.4540 K_S0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyKs +1.0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Kpi_D0CP.dec b/BaBar_2014/B0B0bar_D0Kpi_D0CP.dec new file mode 100755 index 0000000..00003a4 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kpi_D0CP.dec @@ -0,0 +1,181 @@ +########################################################################## +# # +# Decay file for: B0 --> D0 K pi, D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.20698 MyB0 anti-B0 VSS_MIX dm; + 0.20698 Myanti-B0 B0 VSS_MIX dm; + 0.04301 Myanti-B0 anti-B0 VSS_MIX dm; + 0.04301 MyB0 B0 VSS_MIX dm; +Enddecay + + +################################################### +# B0(bar) -> D0(bar) K+- pi-+ +################################################### + +Decay MyB0 + 0.00010 Myanti-D0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 MyD0 K- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta2 PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_D0Kpi_D0NonCP.dec b/BaBar_2014/B0B0bar_D0Kpi_D0NonCP.dec new file mode 100755 index 0000000..b5f3b7d --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kpi_D0NonCP.dec @@ -0,0 +1,144 @@ +########################################################################## +# # +# Decay file for: B0 --> D0 K pi, D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.20698 MyB0 anti-B0 VSS_MIX dm; + 0.20698 Myanti-B0 B0 VSS_MIX dm; + 0.04301 Myanti-B0 anti-B0 VSS_MIX dm; + 0.04301 MyB0 B0 VSS_MIX dm; +Enddecay + + +################################################### +# B0(bar) -> D0(bar) K+- pi-+ +################################################### + +Decay MyB0 + 0.00010 Myanti-D0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 MyD0 K- pi+ PHSP; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_D0Kpi_D0barKpi_K0S.dec b/BaBar_2014/B0B0bar_D0Kpi_D0barKpi_K0S.dec new file mode 100644 index 0000000..3c19606 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kpi_D0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D0D0barK0s anti-B0->X # +# D0 to kpi # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0kpi MyD0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Kpi_Dstar0barKpi_K0S.dec b/BaBar_2014/B0B0bar_D0Kpi_Dstar0barKpi_K0S.dec new file mode 100644 index 0000000..6d09259 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kpi_Dstar0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D0D*0barK0s anti-B0->X # +# D0 to kpi # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0kpi MyD*0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Kpipi0_D0barKpi_K0S.dec b/BaBar_2014/B0B0bar_D0Kpipi0_D0barKpi_K0S.dec new file mode 100644 index 0000000..5f64219 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kpipi0_D0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D0D0barK0s anti-B0->X # +# D0 to kpipi0 # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0kpipi0 MyD0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Kpipi0_Dstar0barKpi_K0S.dec b/BaBar_2014/B0B0bar_D0Kpipi0_Dstar0barKpi_K0S.dec new file mode 100644 index 0000000..8030d23 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kpipi0_Dstar0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D0D*0barK0s anti-B0->X # +# D0 to kpipi0 # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0kpipi0 MyD*0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Ks_D0mKK.dec b/BaBar_2014/B0B0bar_D0Ks_D0mKK.dec new file mode 100644 index 0000000..2b888c3 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Ks_D0mKK.dec @@ -0,0 +1,43 @@ +################################################################# +# # +# Decay: B0bar -> D0 K_S0 , B0 -> X # +# | # +# ----> K+ K- # +# + c.c. # +# # +# Author: Kelly E Ford # +# Date: 7 May 2003 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD0 MyKs PHSP; +Enddecay +# +Decay MyB0 +1.000 Myanti-D0 MyKs PHSP; +Enddecay +# +Decay MyD0 +1.0000 K+ K- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K- K+ PHSP; +Enddecay +# +Decay MyKs +1.0000 pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Ks_D0mKpi.dec b/BaBar_2014/B0B0bar_D0Ks_D0mKpi.dec new file mode 100644 index 0000000..ef81c8f --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Ks_D0mKpi.dec @@ -0,0 +1,43 @@ +################################################################# +# # +# Decay: B0bar -> D0 K_S0 , B0 -> X # +# | # +# ----> pi+ K- # +# + c.c. # +# # +# Author: Kelly E Ford # +# Date: 7 May 2003 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD0 MyKs PHSP; +Enddecay +# +Decay MyB0 +1.000 Myanti-D0 MyKs PHSP; +Enddecay +# +Decay MyD0 +1.0000 pi+ K- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 pi- K+ PHSP; +Enddecay +# +Decay MyKs +1.0000 pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Ks_D0mpipi.dec b/BaBar_2014/B0B0bar_D0Ks_D0mpipi.dec new file mode 100644 index 0000000..52415f1 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Ks_D0mpipi.dec @@ -0,0 +1,43 @@ +################################################################# +# # +# Decay: B0bar -> D0 K_S0 , B0 -> X # +# | # +# ----> pi+ pi- # +# + c.c. # +# # +# Author: Kelly E Ford # +# Date: 7 May 2003 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD0 MyKs PHSP; +Enddecay +# +Decay MyB0 +1.000 Myanti-D0 MyKs PHSP; +Enddecay +# +Decay MyD0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 pi- pi+ PHSP; +Enddecay +# +Decay MyKs +1.0000 pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Ks_K3pi.dec b/BaBar_2014/B0B0bar_D0Ks_K3pi.dec new file mode 100644 index 0000000..e17850a --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Ks_K3pi.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D0 Ks decay # +# Decay: B0 -> D0 K_S0 # +# |-> K- 3pi | # +# |-> pi+ pi- # +# # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Myanti-D0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_D0Ks_Kpi.dec b/BaBar_2014/B0B0bar_D0Ks_Kpi.dec new file mode 100644 index 0000000..3557cd9 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Ks_Kpi.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D0 Ks decay # +# Decay: B0 -> D0 K_S0 # +# |-> K- pi+ | # +# |-> pi+ pi- # +# # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Myanti-D0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_D0Ks_Kpipi0.dec b/BaBar_2014/B0B0bar_D0Ks_Kpipi0.dec new file mode 100644 index 0000000..71b93d0 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Ks_Kpipi0.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D0 Ks decay # +# Decay: B0 -> D0 K_S0 # +# |-> K- pi+ pi0 | # +# |-> pi+ pi- # +# # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Myanti-D0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- pi0 PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_D0Kspi0_K3pi.dec b/BaBar_2014/B0B0bar_D0Kspi0_K3pi.dec new file mode 100644 index 0000000..6e4dfac --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kspi0_K3pi.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D0 Ks pi0 decay # +# Decay: B0 -> D0 K_S0 pi0 # +# |-> K- pi+pi+pi- | # +# |-> pi+ pi- # +# # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Myanti-D0 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD0 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_D0Kspi0_Kpi.dec b/BaBar_2014/B0B0bar_D0Kspi0_Kpi.dec new file mode 100644 index 0000000..5431842 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kspi0_Kpi.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D0 Ks pi0 decay # +# Decay: B0 -> D0 K_S0 pi0 # +# |-> K- pi+ | # +# |-> pi+ pi- # +# # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Myanti-D0 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD0 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_D0Kspi0_Kpipi0.dec b/BaBar_2014/B0B0bar_D0Kspi0_Kpipi0.dec new file mode 100644 index 0000000..0bf1397 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kspi0_Kpipi0.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D0 Ks pi0 decay # +# Decay: B0 -> D0 K_S0 pi0 # +# |-> K- pi+ pi0 | # +# |-> pi+ pi- # +# # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 Myanti-D0 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD0 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- pi0 PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_D0Kstar0.dec b/BaBar_2014/B0B0bar_D0Kstar0.dec new file mode 100644 index 0000000..0dddadf --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kstar0.dec @@ -0,0 +1,121 @@ +#################################################### +# Decay: B0 -> D0bar K*0, anti-B0 -> X # +# |-> breco c'tail |-> KS pi0 # +# |-> K- pi+ # +# # +# + cc # +# # +# Stephen Levy # +# August 15, 2002 # +# # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyK*0 Myanti-D0 SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-K*0 MyD0 SVS; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Kstar0_D0mpipimKK.dec b/BaBar_2014/B0B0bar_D0Kstar0_D0mpipimKK.dec new file mode 100644 index 0000000..cc5621b --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kstar0_D0mpipimKK.dec @@ -0,0 +1,66 @@ +#################################################### +# Decay: B0 -> D0 K*0, anti-B0 -> X # +# |-> K- K+ |-> KS pi0 # +# |-> pi- pi+ |-> K- pi+ # +# # +# + cc # +# # +# # +# Stephen Levy # +# August 15, 2002 # +# # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyK*0 Myanti-D0 SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-K*0 MyD0 SVS; +Enddecay +# +Decay Myanti-D0 +0.742 K+ K- PHSP; +0.258 pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +0.742 K- K+ PHSP; +0.258 pi- pi+ PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_D0Kstar0_Kpi.dec b/BaBar_2014/B0B0bar_D0Kstar0_Kpi.dec new file mode 100644 index 0000000..9a15915 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kstar0_Kpi.dec @@ -0,0 +1,67 @@ +################################################### +# # +# B0 -> D0 K*0 + c.c. # +# | # +# | # +# ---> K+ pi- # +# # +# Author: S.Prell (UC San Diego) # +# S.Rahatlou (UC San Diego) # +# # +# Date: July 2002 # +# # +# Comment:The time evolution as given in Kayser & # +# London (PRD 61, 116013) is not # +# implemented, yet. This needs to be # +# added for time-dependent CP-violation # +# studies. # +################################################### +# +Alias MyB0bar anti-B0 +Alias MyB0 B0 + +Alias MyD0 D0 +Alias MyD0bar anti-D0 + +Alias MyKstar0 K*0 +Alias MyKstar0bar anti-K*0 +# +Define dm 0.0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.500 MyD0 MyKstar0 PHSP; +0.500 MyD0bar MyKstar0 PHSP; +Enddecay +# +Decay MyB0bar +0.500 MyD0 MyKstar0bar PHSP; +0.500 MyD0bar MyKstar0bar PHSP; +Enddecay +# +Decay MyD0 +0.0828 K- pi+ PHSP; +#0.1620 K- pi+ pi+ pi- PHSP; +#0.3010 K- pi+ pi0 D_DALITZ; +#0.4540 K_S0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyD0bar +0.0828 K+ pi- PHSP; +#0.1620 K+ pi- pi- pi+ PHSP; +#0.3010 K+ pi- pi0 D_DALITZ; +#0.4540 K_S0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyKstar0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay MyKstar0bar +1.0 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0Kstar0_Vub.dec b/BaBar_2014/B0B0bar_D0Kstar0_Vub.dec new file mode 100644 index 0000000..792ea46 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0Kstar0_Vub.dec @@ -0,0 +1,126 @@ +#################################################### +# Decay: B0 -> D0 K*0, anti-B0 -> X # +# |-> breco c'tail | Ks pi0 # +# |-> K- pi+ # +# # +# + cc # +# # +# Stephen Levy # +# August 15, 2002 # +# # +# Modified by Sh. Rahatlou on 3 July 2003 # +# to implement the Vub decay amplitude # +# Note that usially B0 -> D0bar X via Vcb # +# but here we have B0 -> D0 X because # +# it is via Vub # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyK*0 MyD0 SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-K*0 Myanti-D0 SVS; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0bK3pi_D0K3pi_K0S.dec b/BaBar_2014/B0B0bar_D0bK3pi_D0K3pi_K0S.dec new file mode 100644 index 0000000..f9f9007 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0bK3pi_D0K3pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0Bk3pi MyD0k3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0bKpi_D0K3pi_K0S.dec b/BaBar_2014/B0B0bar_D0bKpi_D0K3pi_K0S.dec new file mode 100644 index 0000000..d8c26d9 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0bKpi_D0K3pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0Bkpi MyD0k3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0bKpi_D0Kpi_K0S.dec b/BaBar_2014/B0B0bar_D0bKpi_D0Kpi_K0S.dec new file mode 100644 index 0000000..29182b2 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0bKpi_D0Kpi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0Bkpi MyD0kpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0bKpi_D0Kpipi0_K0S.dec b/BaBar_2014/B0B0bar_D0bKpi_D0Kpipi0_K0S.dec new file mode 100644 index 0000000..bfb5f75 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0bKpi_D0Kpipi0_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0Bkpi MyD0kpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0bKpipi0_D0K3pi_K0S.dec b/BaBar_2014/B0B0bar_D0bKpipi0_D0K3pi_K0S.dec new file mode 100644 index 0000000..d495620 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0bKpipi0_D0K3pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0Bkpipi0 MyD0k3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0bKpipi0_D0Kpipi0_K0S.dec b/BaBar_2014/B0B0bar_D0bKpipi0_D0Kpipi0_K0S.dec new file mode 100644 index 0000000..9e7dcf7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0bKpipi0_D0Kpipi0_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD0Bkpipi0 MyD0kpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0ma0p.dec b/BaBar_2014/B0B0bar_D0ma0p.dec new file mode 100644 index 0000000..9225567 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0ma0p.dec @@ -0,0 +1,71 @@ +################################################### +# # +# Decay: B0 -> D- a0+, anti-B0 -> X # +# | # +# -->eta (gg) pi+ # +# # +# # +# Author: H. Snoek # +# Date: 13/jan/04 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD+ D+ +Alias MyD- D- + +Alias MyKs K_S0 + +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +Alias Myomega omega +# +# Always one B0 to the signal channel +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00000 MyD- Mya_0+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.00000 MyD+ Mya_0- PHSP; +Enddecay +# +Decay MyD- +0.589 K+ pi- pi- D_DALITZ; +0.317 MyKs pi- pi0 D_DALITZ; +0.094 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.589 K- pi+ pi+ D_DALITZ; +0.317 MyKs pi+ pi0 D_DALITZ; +0.094 MyKs pi+ PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_0- +1.000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0ppbar2pi_Kpi.dec b/BaBar_2014/B0B0bar_D0ppbar2pi_Kpi.dec new file mode 100644 index 0000000..1e8905e --- /dev/null +++ b/BaBar_2014/B0B0bar_D0ppbar2pi_Kpi.dec @@ -0,0 +1,43 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> D0bar p pbar pi+ pi- # +# | # +# -> K+ pi- # +# # +# Author: Ilya Narsky, Caltech # +# Created: March 18 2004 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +Alias myD0 D0 +Alias myAntiD0 anti-D0 +ChargeConj myD0 myAntiD0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 myAntiD0 p+ anti-p- pi+ pi- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 myD0 p+ anti-p- pi+ pi- PHSP; +Enddecay +# +Decay myD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay myAntiD0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0ppbar_K2pi.dec b/BaBar_2014/B0B0bar_D0ppbar_K2pi.dec new file mode 100644 index 0000000..5ca7f6e --- /dev/null +++ b/BaBar_2014/B0B0bar_D0ppbar_K2pi.dec @@ -0,0 +1,43 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> D0bar p pbar # +# | # +# -> K+ pi- pi0 # +# # +# Author: Haibo Li, Wisconsin # +# Created: March 22 2004 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +Alias myD0 D0 +Alias myAntiD0 anti-D0 +ChargeConj myD0 myAntiD0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 myAntiD0 p+ anti-p- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 myD0 p+ anti-p- PHSP; +Enddecay +# +Decay myD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay myAntiD0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0ppbar_K3pi.dec b/BaBar_2014/B0B0bar_D0ppbar_K3pi.dec new file mode 100644 index 0000000..af64e8d --- /dev/null +++ b/BaBar_2014/B0B0bar_D0ppbar_K3pi.dec @@ -0,0 +1,42 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> D0bar p pbar # +# | # +# -> K+ pi- pi- pi+ # +# Author: Haibo Li, Wisconsin # +# Created: March 22 2004 # +# Changed from Ilya's decay file # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +Alias myD0 D0 +Alias myAntiD0 anti-D0 +ChargeConj myD0 myAntiD0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 myAntiD0 p+ anti-p- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 myD0 p+ anti-p- PHSP; +Enddecay +# +Decay myD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay myAntiD0 +1.000 K+ pi- pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0ppbar_Kpi.dec b/BaBar_2014/B0B0bar_D0ppbar_Kpi.dec new file mode 100644 index 0000000..7f4b1c3 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0ppbar_Kpi.dec @@ -0,0 +1,43 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> D0bar p pbar # +# | # +# -> K+ pi- # +# # +# Author: Ilya Narsky, Caltech # +# Created: March 18 2004 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +Alias myD0 D0 +Alias myAntiD0 anti-D0 +ChargeConj myD0 myAntiD0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 myAntiD0 p+ anti-p- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 myD0 p+ anti-p- PHSP; +Enddecay +# +Decay myD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay myAntiD0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D0ppbar_Ks2pi.dec b/BaBar_2014/B0B0bar_D0ppbar_Ks2pi.dec new file mode 100644 index 0000000..6af1350 --- /dev/null +++ b/BaBar_2014/B0B0bar_D0ppbar_Ks2pi.dec @@ -0,0 +1,48 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> D0bar p pbar # +# | # +# -> Ks pi+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Created: March 22 2004 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +Alias myD0 D0 +Alias myAntiD0 anti-D0 +ChargeConj myD0 myAntiD0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 myAntiD0 p+ anti-p- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 myD0 p+ anti-p- PHSP; +Enddecay +# +Decay myD0 +1.000 MyK_S0 pi+ pi- D_DALITZ; +Enddecay +# +Decay myAntiD0 +1.000 MyK_S0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D1plnu_Dstr0pi.dec b/BaBar_2014/B0B0bar_D1plnu_Dstr0pi.dec new file mode 100644 index 0000000..556c330 --- /dev/null +++ b/BaBar_2014/B0B0bar_D1plnu_Dstr0pi.dec @@ -0,0 +1,89 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0-> D** l nu # +# # +# with D** # +# D_1+ -> D*0 pi+ # +# # +# with D*0 -> D0 pi0 # +# # +# with D0 -> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# Created: 11/Dec/01 # +# Mail: hauke@SLAC.STANFORD.EDU # +####################################################### +# + +# +Alias myantiB0 anti-B0 +Alias myB0 B0 +# +Alias myD_1+ D_1+ +Alias myD_1- D_1- +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +0.5000 myD_1- e+ nu_e PHOTOS ISGW2; +0.5000 myD_1- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myantiB0 +0.5000 myD_1+ e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_1+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# + + +# +# D** +# +Decay myD_1+ +1.0000 myD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay myD_1- +1.0000 myanti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay + + +# +# D* +# +Decay myD*0 +1.0000 myD0 pi0 VSS; +Enddecay +Decay myanti-D*0 +1.0000 myanti-D0 pi0 VSS; +Enddecay + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_D1pluslnu_D0Kpi.dec b/BaBar_2014/B0B0bar_D1pluslnu_D0Kpi.dec new file mode 100644 index 0000000..cc55935 --- /dev/null +++ b/BaBar_2014/B0B0bar_D1pluslnu_D0Kpi.dec @@ -0,0 +1,67 @@ +################################################################### +# # +# Decay: B0 -> X anti-B0 -> D_1+ l- anti-nu_l # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# # +# # +# Mail: VSHARMA@SLAC.STANFORD.EDU +################################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD_1+ e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD_1+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +0.5000 MyD_1- e+ nu_e PHOTOS ISGW2; +0.5000 MyD_1- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD_1+ +1.0000 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1- +1.0000 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D1pluslnu_Dstr0PDG_D0Kpi.dec b/BaBar_2014/B0B0bar_D1pluslnu_Dstr0PDG_D0Kpi.dec new file mode 100644 index 0000000..a5aa0a1 --- /dev/null +++ b/BaBar_2014/B0B0bar_D1pluslnu_Dstr0PDG_D0Kpi.dec @@ -0,0 +1,99 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D_1+ l nu # +# |-> D*0 pi0 # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +############################################################ +# +# +Alias myB0 B0 +Alias myanti-B0 anti-B0 +# +Alias myD_1+ D_1+ +Alias myD_1- D_1- +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myanti-B0 VSS_BMIX dm; +Enddecay +# + + +# +# B +# +Decay myanti-B0 +0.5000 myD_1+ e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_1+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB0 +0.5000 myD_1- e+ nu_e PHOTOS ISGW2; +0.5000 myD_1- mu+ nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D_1+ / D_1- +# +Decay myD_1+ +1.0000 myD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay myD_1- +1.0000 myanti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/B0B0bar_D1primepluslnu_D0Kpi.dec b/BaBar_2014/B0B0bar_D1primepluslnu_D0Kpi.dec new file mode 100644 index 0000000..6969a89 --- /dev/null +++ b/BaBar_2014/B0B0bar_D1primepluslnu_D0Kpi.dec @@ -0,0 +1,67 @@ +################################################################### +# # +# Decay: B0 -> X anti-B0 -> D'_1+ l- anti-nu_l # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# # +# # +# Mail: VSHARMA@SLAC.STANFORD.EDU +################################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD'_1+ e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD'_1+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +0.5000 MyD'_1- e+ nu_e PHOTOS ISGW2; +0.5000 MyD'_1- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD'_1+ +1.0000 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +1.0000 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D2Spluslnu_D0Kpi.dec b/BaBar_2014/B0B0bar_D2Spluslnu_D0Kpi.dec new file mode 100644 index 0000000..e7c7a09 --- /dev/null +++ b/BaBar_2014/B0B0bar_D2Spluslnu_D0Kpi.dec @@ -0,0 +1,67 @@ +################################################################### +# # +# Decay: B0 -> X anti-B0 -> D(2S)+ l- anti-nu_l # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# Author: Francesca Bucci # +# # +# Mail: BUCCIFRA@SLAC.STANFORD.EDU +################################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD(2S)+ D(2S)+ +Alias MyD(2S)- D(2S)- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +0.5000 MyD(2S)- e+ nu_e PHOTOS ISGW2; +0.5000 MyD(2S)- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD(2S)+ +1.0000 MyD*+ pi0 SVS; +Enddecay +# +Decay MyD(2S)- +1.0000 MyD*- pi0 SVS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D2Sstrpluslnu_D0Kpi.dec b/BaBar_2014/B0B0bar_D2Sstrpluslnu_D0Kpi.dec new file mode 100644 index 0000000..edb3057 --- /dev/null +++ b/BaBar_2014/B0B0bar_D2Sstrpluslnu_D0Kpi.dec @@ -0,0 +1,67 @@ +################################################################### +# # +# Decay: B0 -> X anti-B0 -> D*(2S)+ l- anti-nu_l # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# Author: Francesca Bucci # +# # +# Mail: BUCCIFRA@SLAC.STANFORD.EDU +################################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*(2S)+ D*(2S)+ +Alias MyD*(2S)- D*(2S)- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD*(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +0.5000 MyD*(2S)- e+ nu_e PHOTOS ISGW2; +0.5000 MyD*(2S)- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD*(2S)+ +1.0000 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*(2S)- +1.0000 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D2strplnu_Dpi.dec b/BaBar_2014/B0B0bar_D2strplnu_Dpi.dec new file mode 100644 index 0000000..8918895 --- /dev/null +++ b/BaBar_2014/B0B0bar_D2strplnu_Dpi.dec @@ -0,0 +1,88 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0-> D** l nu # +# # +# with D** # +# D2*+ -> D0 pi+ # +# -> D+ pi0 # +# # +# with D0 -> K- pi+ # +# D+ -> K- pi+ pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# Created: 11/Dec/01 # +# Mail: hauke@SLAC.STANFORD.EDU # +####################################################### +# + +# +Alias myantiB0 anti-B0 +Alias myB0 B0 +# +Alias myD_2*+ D_2*+ +Alias myD_2*- D_2*- +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +Alias myD+ D+ +Alias myD- D- +# + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +0.5000 myD_2*- e+ nu_e PHOTOS ISGW2; +0.5000 myD_2*- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myantiB0 +0.5000 myD_2*+ e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_2*+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# + + +# +# D** +# +Decay myD_2*+ +0.5000 myD+ pi0 TSS; +0.5000 myD0 pi+ TSS; +Enddecay +Decay myD_2*- +0.5000 myD- pi0 TSS; +0.5000 myanti-D0 pi- TSS; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +Decay myD+ +# the Dalitz mode below includes K*bar(892)0 pi+, K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +Decay myD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +1.0000 K+ pi- pi- D_DALITZ; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_D2strplnu_Dstr0pi.dec b/BaBar_2014/B0B0bar_D2strplnu_Dstr0pi.dec new file mode 100644 index 0000000..a84ca32 --- /dev/null +++ b/BaBar_2014/B0B0bar_D2strplnu_Dstr0pi.dec @@ -0,0 +1,89 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0-> D** l nu # +# # +# with D** # +# D2*+ -> D*0 pi+ # +# # +# with D*0 -> D0 pi0 # +# # +# with D0 -> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# Created: 11/Dec/01 # +# Mail: hauke@SLAC.STANFORD.EDU # +####################################################### +# + +# +Alias myantiB0 anti-B0 +Alias myB0 B0 +# +Alias myD_2*+ D_2*+ +Alias myD_2*- D_2*- +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +0.5000 myD_2*- e+ nu_e PHOTOS ISGW2; +0.5000 myD_2*- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myantiB0 +0.5000 myD_2*+ e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_2*+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# + + +# +# D** +# +Decay myD_2*+ +1.0000 myD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +Decay myD_2*- +1.0000 myanti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay + + +# +# D* +# +Decay myD*0 +1.0000 myD0 pi0 VSS; +Enddecay +Decay myanti-D*0 +1.0000 myanti-D0 pi0 VSS; +Enddecay + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_D2strpluslnu_D0Kpi.dec b/BaBar_2014/B0B0bar_D2strpluslnu_D0Kpi.dec new file mode 100644 index 0000000..d6051b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D2strpluslnu_D0Kpi.dec @@ -0,0 +1,67 @@ +################################################################### +# # +# Decay: B0 -> X anti-B0 -> D_2*+ l- anti-nu_l # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# # +# # +# Mail: VSHARMA@SLAC.STANFORD.EDU +################################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD_2*+ e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD_2*+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +0.5000 MyD_2*- e+ nu_e PHOTOS ISGW2; +0.5000 MyD_2*- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*- +1.0000 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D2strpluslnu_Dstr0PDG_D0Kpi.dec b/BaBar_2014/B0B0bar_D2strpluslnu_Dstr0PDG_D0Kpi.dec new file mode 100644 index 0000000..2765218 --- /dev/null +++ b/BaBar_2014/B0B0bar_D2strpluslnu_Dstr0PDG_D0Kpi.dec @@ -0,0 +1,99 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D_2*+ l nu # +# |-> D*0 pi0 # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +############################################################ +# +# +Alias myB0 B0 +Alias myanti-B0 anti-B0 +# +Alias myD_2*+ D_2*+ +Alias myD_2*- D_2*- +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myanti-B0 VSS_BMIX dm; +Enddecay +# + + +# +# B +# +Decay myanti-B0 +0.5000 myD_2*+ e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_2*+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB0 +0.5000 myD_2*- e+ nu_e PHOTOS ISGW2; +0.5000 myD_2*- mu+ nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D_2*+ / D_2*- +# +Decay myD_2*+ +1.0000 myD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay myD_2*- +1.0000 myanti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/B0B0bar_DD_exclusive.dec b/BaBar_2014/B0B0bar_DD_exclusive.dec new file mode 100644 index 0000000..acf807b --- /dev/null +++ b/BaBar_2014/B0B0bar_DD_exclusive.dec @@ -0,0 +1,206 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK_S0 pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 K_S0 pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DK_DmKpipi.dec b/BaBar_2014/B0B0bar_DK_DmKpipi.dec new file mode 100644 index 0000000..120c5b4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DK_DmKpipi.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B0 -> D- K+ (D- -> K+ pi- pi-) # +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD- K+ PHSP; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DK_Dmkspi.dec b/BaBar_2014/B0B0bar_DK_Dmkspi.dec new file mode 100644 index 0000000..1bd2f8c --- /dev/null +++ b/BaBar_2014/B0B0bar_DK_Dmkspi.dec @@ -0,0 +1,41 @@ +################################################################# +# # +# Decay: B0 -> D- K+ (D- -> Ks pi-) # +# anti-B0 -> X; + cc # +# # +# Author: C.Voena # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD- K+ PHSP; +Enddecay +# +Decay MyD- +1.0000 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 MyKs pi+ PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DK_Dmpimpi0.dec b/BaBar_2014/B0B0bar_DK_Dmpimpi0.dec new file mode 100644 index 0000000..fe5db61 --- /dev/null +++ b/BaBar_2014/B0B0bar_DK_Dmpimpi0.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B0 -> D- K+ (D- -> pi- pi0) # +# anti-B0 -> X; + cc # +# # +# Author: Zhitang Yu # +# Date: 01/09/2004 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD- K+ PHSP; +Enddecay +# +Decay MyD- +1.0000 pi- pi0 PHSP; +Enddecay +# +Decay MyD+ +1.0000 pi+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DKstar.dec b/BaBar_2014/B0B0bar_DKstar.dec new file mode 100644 index 0000000..e34f718 --- /dev/null +++ b/BaBar_2014/B0B0bar_DKstar.dec @@ -0,0 +1,70 @@ +#################################################### +# Decay: B0 -> D- K*+, anti-B0 -> X # +# |-> K+ pi- pi- |-> KS pi+ # +# Ks pi- |-> K+ pi0 # +# # +# + cc # +# # +# # +# Stephen Levy # +# August 15, 2002 # +# # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyK*+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyK*- MyD+ SVS; +Enddecay +# +Decay MyD- +0.905 K+ pi- pi- D_DALITZ; +0.095 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.905 K- pi+ pi+ D_DALITZ; +0.095 MyKs pi+ PHSP; +Enddecay +# +Decay MyK*+ +0.5784 MyKs pi+ VSS; +0.4216 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +0.5784 MyKs pi- VSS; +0.4216 K- pi0 VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_D_1pa1m_DstarD0pi.dec b/BaBar_2014/B0B0bar_D_1pa1m_DstarD0pi.dec new file mode 100644 index 0000000..ed415ea --- /dev/null +++ b/BaBar_2014/B0B0bar_D_1pa1m_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D_1+ a1- decay.dec # +# # +# Decay: B0b -> D_1+ a1-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 18 jun 01 Fabrizio Salvatore (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- a_1+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_1+ a_1- PHSP; +Enddecay +# +Decay MyD_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1- +0.6667 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_D_1ppim_DstarD0pi.dec b/BaBar_2014/B0B0bar_D_1ppim_DstarD0pi.dec new file mode 100644 index 0000000..1a9f27c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_1ppim_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D_1+ pi- decay.dec # +# # +# Decay: B0b -> D_1+ pi-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_1+ pi- SVS; +Enddecay +# +Decay MyD_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1- +0.6667 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi.dec b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi.dec new file mode 100644 index 0000000..09681fb --- /dev/null +++ b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D_1+ rho- decay.dec # +# # +# Decay: B0b -> D_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_1+ rho- PHSP; +Enddecay +# +Decay MyD_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1- +0.6667 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0K3pi.dec b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0K3pi.dec new file mode 100644 index 0000000..c7931e3 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0K3pi.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Inclusive B0bar -> D_1+ rho- decay.dec # +# # +# Decay: B0b -> D_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_1+ rho- PHSP; +Enddecay +# +Decay MyD_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1- +0.6667 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0Kpi.dec b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..c6942ab --- /dev/null +++ b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0Kpi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B0bar -> D_1+ rho- decay.dec # +# # +# Decay: B0b -> D_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_1+ rho- PHSP; +Enddecay +# +Decay MyD_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1- +0.6667 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0Kpipi0.dec b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0Kpipi0.dec new file mode 100644 index 0000000..7646499 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_1prhom_DstarD0pi_D0Kpipi0.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Inclusive B0bar -> D_1+ rho- decay.dec # +# # +# Decay: B0b -> D_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_1+ rho- PHSP; +Enddecay +# +Decay MyD_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1- +0.6667 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D_2starpa1m_DstarD0pi.dec b/BaBar_2014/B0B0bar_D_2starpa1m_DstarD0pi.dec new file mode 100644 index 0000000..0024c56 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_2starpa1m_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D_2*+ a1- decay.dec # +# # +# Decay: B0b -> D_2*+ a1-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 18 jun 01 Fabrizio Salvatore (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- a_1+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_2*+ a_1- PHSP; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_D_2starppim_DstarD0pi.dec b/BaBar_2014/B0B0bar_D_2starppim_DstarD0pi.dec new file mode 100644 index 0000000..b04c223 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_2starppim_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D_2*+ pi- decay.dec # +# # +# Decay: B0b -> D_2*+ pi-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi.dec b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi.dec new file mode 100644 index 0000000..f9b28a5 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D_2*+ rho- decay.dec # +# # +# Decay: B0b -> D_2*+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_2*+ rho- PHSP; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0K3pi.dec b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0K3pi.dec new file mode 100644 index 0000000..1a990f9 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0K3pi.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Inclusive B0bar -> D_2*+ rho- decay.dec # +# # +# Decay: B0b -> D_2*+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_2*+ rho- PHSP; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0Kpi.dec b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..e5ae857 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0Kpi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B0bar -> D_2*+ rho- decay.dec # +# # +# Decay: B0b -> D_2*+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_2*+ rho- PHSP; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0Kpipi0.dec b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0Kpipi0.dec new file mode 100644 index 0000000..0d1c0c0 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_2starprhom_DstarD0pi_D0Kpipi0.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Inclusive B0bar -> D_2*+ rho- decay.dec # +# # +# Decay: B0b -> D_2*+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_2*+ rho- PHSP; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Ks0KKpipi.dec b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Ks0KKpipi.dec new file mode 100644 index 0000000..070a86d --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Ks0KKpipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD-_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Ks0KKspi.dec b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Ks0KKspi.dec new file mode 100644 index 0000000..e998e42 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Ks0KKspi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD-_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Kstar0KKpipi.dec b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Kstar0KKpipi.dec new file mode 100644 index 0000000..e8dce68 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Kstar0KKpipi.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD-_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Kstar0KKspi.dec b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Kstar0KKspi.dec new file mode 100644 index 0000000..b9f152a --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_Kstar0KKspi.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD-_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_phipiKpipi.dec b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_phipiKpipi.dec new file mode 100644 index 0000000..f8df8d2 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_phipiKpipi.dec @@ -0,0 +1,137 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD-_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_phipiKspi.dec b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_phipiKspi.dec new file mode 100644 index 0000000..04a677a --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDch_D_sgDch_phipiKspi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD-_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi.dec new file mode 100644 index 0000000..df610b6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_001.dec new file mode 100644 index 0000000..12c0870 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_001.dec @@ -0,0 +1,178 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_010.dec new file mode 100644 index 0000000..8473bf0 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_010.dec @@ -0,0 +1,178 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_100.dec new file mode 100644 index 0000000..4003e87 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_100.dec @@ -0,0 +1,178 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_phsp.dec new file mode 100644 index 0000000..804bc9b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pi_phsp.dec @@ -0,0 +1,178 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim001.dec new file mode 100644 index 0000000..12c0870 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim001.dec @@ -0,0 +1,178 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim010.dec new file mode 100644 index 0000000..8473bf0 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim010.dec @@ -0,0 +1,178 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim100.dec new file mode 100644 index 0000000..4003e87 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KK3pim100.dec @@ -0,0 +1,178 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi.dec new file mode 100644 index 0000000..025c29f --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_001.dec new file mode 100644 index 0000000..aea947f --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_001.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_010.dec new file mode 100644 index 0000000..9b8903a --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_010.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_100.dec new file mode 100644 index 0000000..7f02a71 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_100.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_phsp.dec new file mode 100644 index 0000000..c185d3c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpi_phsp.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim001.dec new file mode 100644 index 0000000..aea947f --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim001.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim010.dec new file mode 100644 index 0000000..9b8903a --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim010.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim100.dec new file mode 100644 index 0000000..7f02a71 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpim100.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0.dec new file mode 100644 index 0000000..a716968 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_001.dec new file mode 100644 index 0000000..8568345 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_001.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_010.dec new file mode 100644 index 0000000..1689428 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_010.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_100.dec new file mode 100644 index 0000000..b4682de --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_100.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_phsp.dec new file mode 100644 index 0000000..dc93cf1 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0_phsp.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m001.dec new file mode 100644 index 0000000..8568345 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m001.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m010.dec new file mode 100644 index 0000000..1689428 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m010.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m100.dec new file mode 100644 index 0000000..b4682de --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKpipi0m100.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi.dec new file mode 100644 index 0000000..4a9dbae --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_001.dec new file mode 100644 index 0000000..bd81bcc --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_010.dec new file mode 100644 index 0000000..1d269bf --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_100.dec new file mode 100644 index 0000000..7b750d6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_phsp.dec new file mode 100644 index 0000000..2f35d95 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipi_phsp.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim001.dec new file mode 100644 index 0000000..bd81bcc --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim010.dec new file mode 100644 index 0000000..1d269bf --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim100.dec new file mode 100644 index 0000000..7b750d6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Ks0KKspipim100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi.dec new file mode 100644 index 0000000..304d502 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_001.dec new file mode 100644 index 0000000..ceb4d17 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_001.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_010.dec new file mode 100644 index 0000000..2f60258 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_010.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_100.dec new file mode 100644 index 0000000..f1aa7fd --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_100.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_phsp.dec new file mode 100644 index 0000000..ec42944 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pi_phsp.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim001.dec new file mode 100644 index 0000000..f01e646 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim001.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim010.dec new file mode 100644 index 0000000..ce4065c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim010.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim100.dec new file mode 100644 index 0000000..dfad478 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KK3pim100.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi.dec new file mode 100644 index 0000000..fb7469b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_001.dec new file mode 100644 index 0000000..4196a88 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_010.dec new file mode 100644 index 0000000..1d349f7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_100.dec new file mode 100644 index 0000000..357c66d --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_phsp.dec new file mode 100644 index 0000000..78833aa --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpi_phsp.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim001.dec new file mode 100644 index 0000000..434d713 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim001.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim010.dec new file mode 100644 index 0000000..1055ef8 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim010.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim100.dec new file mode 100644 index 0000000..ea3ac3e --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpim100.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0.dec new file mode 100644 index 0000000..8bbc88f --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_001.dec new file mode 100644 index 0000000..4c6c9ca --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_010.dec new file mode 100644 index 0000000..a78d467 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_100.dec new file mode 100644 index 0000000..660f206 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_phsp.dec new file mode 100644 index 0000000..63e2430 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0_phsp.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m001.dec new file mode 100644 index 0000000..0e7d64f --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m001.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m010.dec new file mode 100644 index 0000000..27c4981 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m010.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m100.dec new file mode 100644 index 0000000..c477720 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKpipi0m100.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi.dec new file mode 100644 index 0000000..7313b40 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_001.dec new file mode 100644 index 0000000..de1c7d6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_010.dec new file mode 100644 index 0000000..22c27c4 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_100.dec new file mode 100644 index 0000000..3363951 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_phsp.dec new file mode 100644 index 0000000..8988b03 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipi_phsp.dec @@ -0,0 +1,158 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim001.dec new file mode 100644 index 0000000..e914d88 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim001.dec @@ -0,0 +1,158 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim010.dec new file mode 100644 index 0000000..75d8e18 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim010.dec @@ -0,0 +1,158 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim100.dec new file mode 100644 index 0000000..3923a1c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_Kstar0KKspipim100.dec @@ -0,0 +1,158 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi.dec new file mode 100644 index 0000000..aa66cf9 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_001.dec new file mode 100644 index 0000000..c8e98b5 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_001.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_010.dec new file mode 100644 index 0000000..66e8f13 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_010.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_100.dec new file mode 100644 index 0000000..fe37dc6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_100.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_phsp.dec new file mode 100644 index 0000000..73a4cf2 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pi_phsp.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim001.dec new file mode 100644 index 0000000..c8e98b5 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim001.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim010.dec new file mode 100644 index 0000000..66e8f13 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim010.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim100.dec new file mode 100644 index 0000000..fe37dc6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiK3pim100.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi.dec new file mode 100644 index 0000000..3c306f5 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_001.dec new file mode 100644 index 0000000..6aec097 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_010.dec new file mode 100644 index 0000000..5ba11aa --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_100.dec new file mode 100644 index 0000000..8873d08 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_phsp.dec new file mode 100644 index 0000000..bc4dd68 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpi_phsp.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim001.dec new file mode 100644 index 0000000..6aec097 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim010.dec new file mode 100644 index 0000000..5ba11aa --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim100.dec new file mode 100644 index 0000000..8873d08 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpim100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0.dec new file mode 100644 index 0000000..cc9f034 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_001.dec new file mode 100644 index 0000000..67dc547 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_010.dec new file mode 100644 index 0000000..5ef8799 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_100.dec new file mode 100644 index 0000000..c94814b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_phsp.dec new file mode 100644 index 0000000..0c0ba17 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0_phsp.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m001.dec new file mode 100644 index 0000000..67dc547 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m010.dec new file mode 100644 index 0000000..5ef8799 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m100.dec new file mode 100644 index 0000000..c94814b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKpipi0m100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi.dec new file mode 100644 index 0000000..7b99479 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_001.dec new file mode 100644 index 0000000..b950260 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_010.dec new file mode 100644 index 0000000..38382b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_100.dec new file mode 100644 index 0000000..4d770d7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_phsp.dec new file mode 100644 index 0000000..ab9b088 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipi_phsp.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim001.dec new file mode 100644 index 0000000..b950260 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim010.dec new file mode 100644 index 0000000..38382b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim100.dec new file mode 100644 index 0000000..4d770d7 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgD0pi_phipiKspipim100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi.dec new file mode 100644 index 0000000..be6282d --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_001.dec new file mode 100644 index 0000000..aa6398a --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_001.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_010.dec new file mode 100644 index 0000000..aeab1c1 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_010.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_100.dec new file mode 100644 index 0000000..45f113c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_100.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_phsp.dec new file mode 100644 index 0000000..2051fd9 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipi_phsp.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim001.dec new file mode 100644 index 0000000..aa6398a --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim001.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim010.dec new file mode 100644 index 0000000..aeab1c1 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim010.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim100.dec new file mode 100644 index 0000000..45f113c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKpipim100.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi.dec new file mode 100644 index 0000000..8fd5f2b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_001.dec new file mode 100644 index 0000000..f235323 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_010.dec new file mode 100644 index 0000000..fb37ea6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_100.dec new file mode 100644 index 0000000..a63f08c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_phsp.dec new file mode 100644 index 0000000..69453da --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspi_phsp.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim001.dec new file mode 100644 index 0000000..f235323 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim010.dec new file mode 100644 index 0000000..fb37ea6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim100.dec new file mode 100644 index 0000000..a63f08c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Ks0KKspim100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi.dec new file mode 100644 index 0000000..6c5f9f3 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_001.dec new file mode 100644 index 0000000..f524b1c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_010.dec new file mode 100644 index 0000000..02ee44b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_100.dec new file mode 100644 index 0000000..4981bfe --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_phsp.dec new file mode 100644 index 0000000..69e20f6 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipi_phsp.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim001.dec new file mode 100644 index 0000000..e4cfd2b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim001.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim010.dec new file mode 100644 index 0000000..803b7c5 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim010.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim100.dec new file mode 100644 index 0000000..ca8f146 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKpipim100.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi.dec new file mode 100644 index 0000000..cae68d2 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_001.dec new file mode 100644 index 0000000..295c8de --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_010.dec new file mode 100644 index 0000000..0b7fafa --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_100.dec new file mode 100644 index 0000000..0a0d4d3 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_phsp.dec new file mode 100644 index 0000000..68b322e --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspi_phsp.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim001.dec new file mode 100644 index 0000000..56a3e6e --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim001.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim010.dec new file mode 100644 index 0000000..11719c5 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim010.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim100.dec new file mode 100644 index 0000000..9ba66e1 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_Kstar0KKspim100.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi.dec new file mode 100644 index 0000000..d36b7e3 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_001.dec new file mode 100644 index 0000000..e8f0038 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_010.dec new file mode 100644 index 0000000..aa9e61c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_100.dec new file mode 100644 index 0000000..bc42564 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_phsp.dec new file mode 100644 index 0000000..d1d6799 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipi_phsp.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim001.dec new file mode 100644 index 0000000..e8f0038 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim001.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim010.dec new file mode 100644 index 0000000..aa9e61c --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim010.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim100.dec new file mode 100644 index 0000000..bc42564 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKpipim100.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi.dec new file mode 100644 index 0000000..9c7953b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_001.dec new file mode 100644 index 0000000..15ffc5b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_010.dec new file mode 100644 index 0000000..8693870 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_100.dec new file mode 100644 index 0000000..4616e3e --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_phsp.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_phsp.dec new file mode 100644 index 0000000..4b272e0 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspi_phsp.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim001.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim001.dec new file mode 100644 index 0000000..15ffc5b --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim010.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim010.dec new file mode 100644 index 0000000..8693870 --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim100.dec b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim100.dec new file mode 100644 index 0000000..4616e3e --- /dev/null +++ b/BaBar_2014/B0B0bar_D_sstarDstar_D_sgDchpi0_phipiKspim100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD_s*+_1 MyD*-_2 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DcKsPi.dec b/BaBar_2014/B0B0bar_DcKsPi.dec new file mode 100755 index 0000000..87e43a2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DcKsPi.dec @@ -0,0 +1,68 @@ +########################################################################## +# # +# Decay file for: B0(bar) --> D-+ Ks pi+- # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.20698 MyB0 anti-B0 VSS_MIX dm; + 0.20698 Myanti-B0 B0 VSS_MIX dm; + 0.04301 Myanti-B0 anti-B0 VSS_MIX dm; + 0.04301 MyB0 B0 VSS_MIX dm; +Enddecay + + +################################################### +# B0(bar) --> D-+ Ks pi+- +################################################### + +Decay MyB0 + 0.00010 MyD- MyKs pi+ PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 MyD+ MyKs pi- PHSP; +Enddecay + + +################################################### +# Further decays +################################################### + +Decay MyD- + 0.901 K+ pi- pi- D_DALITZ; + 0.099 MyKs pi- PHSP; +Enddecay + +Decay MyD+ + 0.901 K- pi+ pi+ D_DALITZ; + 0.099 MyKs pi+ PHSP; +Enddecay + + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +End + + diff --git a/BaBar_2014/B0B0bar_DchD_sch_KpipiK0K.dec b/BaBar_2014/B0B0bar_DchD_sch_KpipiK0K.dec new file mode 100644 index 0000000..4ab0849 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchD_sch_KpipiK0K.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD-_1 MyD_s+_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchD_sch_KpipiKstar0K.dec b/BaBar_2014/B0B0bar_DchD_sch_KpipiKstar0K.dec new file mode 100644 index 0000000..807d5fe --- /dev/null +++ b/BaBar_2014/B0B0bar_DchD_sch_KpipiKstar0K.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD-_1 MyD_s+_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchD_sch_Kpipiphipi.dec b/BaBar_2014/B0B0bar_DchD_sch_Kpipiphipi.dec new file mode 100644 index 0000000..50c50d9 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchD_sch_Kpipiphipi.dec @@ -0,0 +1,130 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD-_1 MyD_s+_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchD_sch_KspiK0K.dec b/BaBar_2014/B0B0bar_DchD_sch_KspiK0K.dec new file mode 100644 index 0000000..9416d7f --- /dev/null +++ b/BaBar_2014/B0B0bar_DchD_sch_KspiK0K.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD-_1 MyD_s+_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchD_sch_KspiKstar0K.dec b/BaBar_2014/B0B0bar_DchD_sch_KspiKstar0K.dec new file mode 100644 index 0000000..526adf6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchD_sch_KspiKstar0K.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD-_1 MyD_s+_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchD_sch_Kspiphipi.dec b/BaBar_2014/B0B0bar_DchD_sch_Kspiphipi.dec new file mode 100644 index 0000000..3426d5d --- /dev/null +++ b/BaBar_2014/B0B0bar_DchD_sch_Kspiphipi.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD-_1 MyD_s+_2 PHSP ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchDch_KKpiKKpi.dec b/BaBar_2014/B0B0bar_DchDch_KKpiKKpi.dec new file mode 100644 index 0000000..dbc9683 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KKpiKKpi.dec @@ -0,0 +1,100 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Myphi Myphi + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + + +# +# + +Decay MyB0 +0.5000 MyD+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 +# + +Decay MyD- +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# + +CDecay MyD+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# + +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_DchDch_KpipiKKpi.dec b/BaBar_2014/B0B0bar_DchDch_KpipiKKpi.dec new file mode 100644 index 0000000..e22533a --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KpipiKKpi.dec @@ -0,0 +1,112 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# + + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+_1 MyD-_2 +ChargeConj MyD+_2 MyD-_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Myphi Myphi +# + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# + +Decay MyB0 +0.5000 MyD+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 +# + +Decay MyD-_1 +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay + +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD+_2 + +CDecay MyD-_2 + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# + +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + + +End diff --git a/BaBar_2014/B0B0bar_DchDch_KpipiKpipi.dec b/BaBar_2014/B0B0bar_DchDch_KpipiKpipi.dec new file mode 100644 index 0000000..94b37c2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KpipiKpipi.dec @@ -0,0 +1,129 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchDch_KpipiKspi.dec b/BaBar_2014/B0B0bar_DchDch_KpipiKspi.dec new file mode 100644 index 0000000..c7e21ae --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KpipiKspi.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchDch_KpipiKspipi0.dec b/BaBar_2014/B0B0bar_DchDch_KpipiKspipi0.dec new file mode 100644 index 0000000..3d90aaa --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KpipiKspipi0.dec @@ -0,0 +1,108 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- + +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+_1 MyD-_2 +ChargeConj MyD+_2 MyD-_1 +ChargeConj MyK0 Myanti-K0 +# +# + +Decay MyB0 +0.5000 MyD+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 +# + +Decay MyD-_1 +1.0000 K+ pi- pi- D_DALITZ; +Enddecay + +Decay MyD+_1 +1.0000 Myanti-K0 pi+ pi0 D_DALITZ; +Enddecay + +CDecay MyD+_2 + +CDecay MyD-_2 + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_DchDch_KspiKKpi.dec b/BaBar_2014/B0B0bar_DchDch_KspiKKpi.dec new file mode 100644 index 0000000..3d3a71e --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KspiKKpi.dec @@ -0,0 +1,121 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+_1 MyD-_2 +ChargeConj MyD+_2 MyD-_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# +# + +Decay MyB0 +0.5000 MyD+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 +# + +Decay MyD-_1 +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay + +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay + +CDecay MyD+_2 + +CDecay MyD-_2 + + +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +CDecay Myanti-K*0 + +End diff --git a/BaBar_2014/B0B0bar_DchDch_KspiKspi.dec b/BaBar_2014/B0B0bar_DchDch_KspiKspi.dec new file mode 100644 index 0000000..fc0e900 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KspiKspi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DchDch_KspiKspipi0.dec b/BaBar_2014/B0B0bar_DchDch_KspiKspipi0.dec new file mode 100644 index 0000000..3addb0f --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_KspiKspipi0.dec @@ -0,0 +1,120 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+_1 MyD-_2 +ChargeConj MyD+_2 MyD-_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK*0 Myanti-K*0 +# +# + +Decay MyB0 +0.5000 MyD+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 +# + +Decay MyD-_1 +1.0000 MyK0 pi- pi0 D_DALITZ; +Enddecay + +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay + +CDecay MyD+_2 + +CDecay MyD-_2 + + +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +CDecay Myanti-K*0 + +End diff --git a/BaBar_2014/B0B0bar_DchDch_Kspipi0KKpi.dec b/BaBar_2014/B0B0bar_DchDch_Kspipi0KKpi.dec new file mode 100644 index 0000000..12d6d3f --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_Kspipi0KKpi.dec @@ -0,0 +1,122 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+_1 MyD-_2 +ChargeConj MyD+_2 MyD-_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK*0 Myanti-K*0 +# +# + +Decay MyB0 +0.5000 MyD+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD+_2 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 +# + +Decay MyD-_1 +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay + +Decay MyD+_1 +1.0000 Myanti-K0 pi+ pi0 D_DALITZ; +Enddecay + +CDecay MyD+_2 + +CDecay MyD-_2 + + +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +CDecay Myanti-K*0 + +End diff --git a/BaBar_2014/B0B0bar_DchDch_Kspipi0Kspipi0.dec b/BaBar_2014/B0B0bar_DchDch_Kspipi0Kspipi0.dec new file mode 100644 index 0000000..d5648ef --- /dev/null +++ b/BaBar_2014/B0B0bar_DchDch_Kspipi0Kspipi0.dec @@ -0,0 +1,99 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+ MyD- +ChargeConj MyK0 Myanti-K0 +# +# + +Decay MyB0 +0.5000 MyD+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 +# + +Decay MyD+ +1.0000 Myanti-K0 pi+ pi0 D_DALITZ; +Enddecay +# + +CDecay MyD- + +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/B0B0bar_DchK2pi_D0K3pi_K.dec b/BaBar_2014/B0B0bar_DchK2pi_D0K3pi_K.dec new file mode 100644 index 0000000..77ede92 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchK2pi_D0K3pi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DchK2pi_D0Kpi_K.dec b/BaBar_2014/B0B0bar_DchK2pi_D0Kpi_K.dec new file mode 100644 index 0000000..5256f1e --- /dev/null +++ b/BaBar_2014/B0B0bar_DchK2pi_D0Kpi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DchK2pi_D0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DchK2pi_D0Kpipi0_K.dec new file mode 100644 index 0000000..e3da7f4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchK2pi_D0Kpipi0_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DchK2pi_DchK2pi_K0S.dec b/BaBar_2014/B0B0bar_DchK2pi_DchK2pi_K0S.dec new file mode 100644 index 0000000..612a564 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchK2pi_DchK2pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD+ MyD- myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DchK2pi_Dstar0K3pi_K.dec b/BaBar_2014/B0B0bar_DchK2pi_Dstar0K3pi_K.dec new file mode 100644 index 0000000..c8987f4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchK2pi_Dstar0K3pi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpi_K.dec b/BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpi_K.dec new file mode 100644 index 0000000..c037408 --- /dev/null +++ b/BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpipi0_K.dec new file mode 100644 index 0000000..64d879d --- /dev/null +++ b/BaBar_2014/B0B0bar_DchK2pi_Dstar0Kpipi0_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Denubar_DmKspi.dec b/BaBar_2014/B0B0bar_Denubar_DmKspi.dec new file mode 100644 index 0000000..260a870 --- /dev/null +++ b/BaBar_2014/B0B0bar_Denubar_DmKspi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->D+ l- anti-nu_l # +# |-> K0s pi+ # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0B +1.0000 MyD+ e- anti-nu_e ISGW2; +Enddecay +# +Decay MyB0 +1.0000 MyD- e+ nu_e ISGW2; +Enddecay +# +Decay MyD+ +1.0000 MyKs pi+ PHSP; +Enddecay +# +Decay MyD- +1.0000 MyKs pi- PHSP; +Enddecay# + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dlnu.dec b/BaBar_2014/B0B0bar_Dlnu.dec new file mode 100644 index 0000000..daf201f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dlnu.dec @@ -0,0 +1,44 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->D+ l- anti-nu_l # +# |-> K- pi+ pi+ # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Mail: SCHUNEM@SLAC.STANFORD.EDU +# Created: 09/Feb/99 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD+ D+ +Alias MyD- D- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0B +0.5000 MyD+ e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +0.5000 MyD- e+ nu_e PHOTOS ISGW2; +0.5000 MyD- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD+ +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +0.0910 K+ pi- pi- D_DALITZ; +Enddecay# +End diff --git a/BaBar_2014/B0B0bar_DmKspip_Kpipi.dec b/BaBar_2014/B0B0bar_DmKspip_Kpipi.dec new file mode 100644 index 0000000..27460ce --- /dev/null +++ b/BaBar_2014/B0B0bar_DmKspip_Kpipi.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D- Ks pi+ decay # +# Decay: B0 -> D- K_S0 pi+ # +# |-> K+ pi- pi- | # +# |-> pi+ pi- # +# # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyD- MyK_S0 pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD+ MyK_S0 pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_DmKspip_Kspi.dec b/BaBar_2014/B0B0bar_DmKspip_Kspi.dec new file mode 100644 index 0000000..c18f52b --- /dev/null +++ b/BaBar_2014/B0B0bar_DmKspip_Kspi.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D- Ks pi+ decay # +# Decay: B0 -> D- K_S0 pi+ # +# |-> K_S0 pi- | # +# | |-> pi+ pi- # +# |-> pi+ pi- # +# + cc # +# # +# 29th January 2002 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyD- MyK_S0 pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD+ MyK_S0 pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_DmKspip_Kspipi0.dec b/BaBar_2014/B0B0bar_DmKspip_Kspipi0.dec new file mode 100644 index 0000000..4dbc2c4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DmKspip_Kspipi0.dec @@ -0,0 +1,55 @@ +#################################################### +# Exclusive B0 -> D- Ks pi+ decay # +# Decay: B0 -> D- K_S0 pi+ # +# |-> Ks pi pi0 | # +# |-> pi+ pi- |-> pi+ pi- # +# # +# + cc # +# # +# 11th December 2001 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyD- MyK_S0 pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD+ MyK_S0 pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- pi0 PHSP; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_DminusK2pi_D0K3pi_Kplus.dec b/BaBar_2014/B0B0bar_DminusK2pi_D0K3pi_Kplus.dec new file mode 100644 index 0000000..654cda3 --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusK2pi_D0K3pi_Kplus.dec @@ -0,0 +1,142 @@ +####################################################### +# # +# Decay: B0 -> D-D0K+ anti-B0->anything # +# D-->K+pi-pi- # +# D0->K-pi+pi-pi+ # +# # +# # +# Author: Jean-Pierre Lees # +# Created: 02/February/2000 # +# Modified: 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +End diff --git a/BaBar_2014/B0B0bar_DminusK2pi_D0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DminusK2pi_D0Kpi_Kplus.dec new file mode 100644 index 0000000..d53043d --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusK2pi_D0Kpi_Kplus.dec @@ -0,0 +1,142 @@ +####################################################### +# # +# Decay: B0 -> D-D0K+ anti-B0->anything # +# D-->K+pi-pi- # +# D0->K-pi+ # +# # +# # +# Author: Jean-Pierre Lees # +# Created: 02/February/2000 # +# Modified: 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +End diff --git a/BaBar_2014/B0B0bar_DminusK2pi_D0Kpipi0_Kplus.dec b/BaBar_2014/B0B0bar_DminusK2pi_D0Kpipi0_Kplus.dec new file mode 100644 index 0000000..1ac7b5d --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusK2pi_D0Kpipi0_Kplus.dec @@ -0,0 +1,142 @@ +####################################################### +# # +# Decay: B0 -> D-D0K+ anti-B0->anything # +# D-->K+pi-pi- # +# D0->K-pi+pi0 # +# # +# # +# Author: Jean-Pierre Lees # +# Created: 02/February/2000 # +# Modified: 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +End diff --git a/BaBar_2014/B0B0bar_DminusK2pi_DplusK2pi_K0S.dec b/BaBar_2014/B0B0bar_DminusK2pi_DplusK2pi_K0S.dec new file mode 100644 index 0000000..818eb51 --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusK2pi_DplusK2pi_K0S.dec @@ -0,0 +1,149 @@ +####################################################### +# # +# Decay: B0 -> D-D+K0s anti-B0->X # +# D-->K+pi-pi- # +# D+->K-pi+pi+ # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified: 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD+ myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DminusK2pi_Dstar0K3pi_Kplus.dec b/BaBar_2014/B0B0bar_DminusK2pi_Dstar0K3pi_Kplus.dec new file mode 100644 index 0000000..9126787 --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusK2pi_Dstar0K3pi_Kplus.dec @@ -0,0 +1,175 @@ +####################################################### +# # +# Decay: B0 -> D-D*0K+ anti-B0->X # +# D-->K+pi-pi- # +# D*0>D0pi0, D0gamma # +# D0->K3pi # +# # +# Author: Jean-Pierre Lees # +# Created: 02/02/2001 # +# Modified: 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DminusK2pi_Dstar0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DminusK2pi_Dstar0Kpi_Kplus.dec new file mode 100644 index 0000000..1c75fe4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusK2pi_Dstar0Kpi_Kplus.dec @@ -0,0 +1,175 @@ +####################################################### +# # +# Decay: B0 -> D-D*0K+ anti-B0->X # +# D-->K+pi-pi- # +# D*0>D0pi0, D0gamma # +# D0->Kpi # +# # +# Author: Jean-Pierre Lees # +# Created: 02/02/2001 # +# Modified: 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DminusK2pi_Dstar0Kpipi0_Kplus.dec b/BaBar_2014/B0B0bar_DminusK2pi_Dstar0Kpipi0_Kplus.dec new file mode 100644 index 0000000..b4e6880 --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusK2pi_Dstar0Kpipi0_Kplus.dec @@ -0,0 +1,175 @@ +####################################################### +# # +# Decay: B0 -> D-D*0K+ anti-B0->X # +# D-->K+pi-pi- # +# D*0>D0pi0, D0gamma # +# D0->Kpipi0 # +# # +# Author: Jean-Pierre Lees # +# Created: 02/02/2001 # +# Modified: 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DminusKpipi_D0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DminusKpipi_D0Kpi_Kplus.dec new file mode 100644 index 0000000..3868b17 --- /dev/null +++ b/BaBar_2014/B0B0bar_DminusKpipi_D0Kpi_Kplus.dec @@ -0,0 +1,49 @@ +####################################################### +# # +# Decay: B0 -> D-D0K+ B0Bar->X + c.c # +# D- -> K+pi-pi- # +# D0->K-pi+ # +# # +# Author: Sophie Trincaz # +# # +# Created: 17/March/2000 # +####################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyD- D- +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- MyD0 K+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ Myanti-D0 K- PHSP; +Enddecay +# +# +Decay MyD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dminusppbarpiplus_K2pi.dec b/BaBar_2014/B0B0bar_Dminusppbarpiplus_K2pi.dec new file mode 100644 index 0000000..8850cfe --- /dev/null +++ b/BaBar_2014/B0B0bar_Dminusppbarpiplus_K2pi.dec @@ -0,0 +1,39 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D- p anti-p- pi+, anti-B0 -> X # +# |-> K+ pi- pi- # +# Comments: # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD+ p+ anti-p- pi- PHSP; +Enddecay +# // resonance structure in Dalitz modeled +Decay MyD- + 1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ + 1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dminusppbarpiplus_K3pi.dec b/BaBar_2014/B0B0bar_Dminusppbarpiplus_K3pi.dec new file mode 100644 index 0000000..53d713a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dminusppbarpiplus_K3pi.dec @@ -0,0 +1,38 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D- p+ anti-p- pi+, anti-B0 -> X # +# |-> K+ pi- pi- pi0 # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD+ p+ anti-p- pi- PHSP; +Enddecay +# // resonance structure in Dalitz modeled +Decay MyD- + 1.0000 K+ pi- pi- pi0 PHSP; +Enddecay +# +Decay MyD+ + 1.0000 K- pi+ pi+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dminusppbarpiplus_Ks2pi.dec b/BaBar_2014/B0B0bar_Dminusppbarpiplus_Ks2pi.dec new file mode 100644 index 0000000..aab2830 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dminusppbarpiplus_Ks2pi.dec @@ -0,0 +1,56 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D- p+ anti-p- pi+, anti-B0 -> X # +# | # +# |-> K0 pi- pi0 # +# |-> K_0S (50.00%) # +# |-> pi+ pi-(68.60%) # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD+ p+ anti-p- pi- PHSP; +Enddecay +# // resonance structure in Dalitz modeled +Decay MyD- + 1.0000 MyK0 pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD+ + 1.0000 Myanti-K0 pi+ pi0 D_DALITZ; +Enddecay +# +Decay MyK0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dminusppbarpiplus_Kspi.dec b/BaBar_2014/B0B0bar_Dminusppbarpiplus_Kspi.dec new file mode 100644 index 0000000..85928ca --- /dev/null +++ b/BaBar_2014/B0B0bar_Dminusppbarpiplus_Kspi.dec @@ -0,0 +1,55 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D- p+ anti-p- pi+, anti-B0 -> X # +# |-> K0 pi- # +# |-> K_0S (50.00%) # +# |-> pi+ pi-(68.60%) # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD+ p+ anti-p- pi- PHSP; +Enddecay +# // resonance structure in Dalitz modeled +Decay MyD- + 1.0000 MyK0 pi- PHSP; +Enddecay +# +Decay MyD+ + 1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +Decay MyK0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dminusppbarpiplus_KspiK2piK3pi.dec b/BaBar_2014/B0B0bar_Dminusppbarpiplus_KspiK2piK3pi.dec new file mode 100644 index 0000000..d8ae573 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dminusppbarpiplus_KspiK2piK3pi.dec @@ -0,0 +1,64 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D- p+ anti-p- pi+, anti-B0 -> X # +# | ( BF, Effective, Rel.)# +# |-> anti-K0 pi+ ( 2.89%, 0.991% 8.86%)# +# |-> K_0S (50.00%) # +# |-> pi+ pi-(68.60%) # +# |-> K- pi+ pi+ ( 9.00%, 9.00%, 80.42%)# +# |-> K- pi+ pi+ pi0 ( 1.20%, 1.20%, 10.72%)# +# Sum ( 11.19%,100.00%)# +# Comments: # +# # +# Author: T. M. Hong # +# Date: 20 Nov 03 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD+ p+ anti-p- pi- PHSP; +Enddecay +# // resonance structure in Dalitz modeled +Decay MyD- + 0.0886 MyK0 pi- PHSP; + 0.8042 K+ pi- pi- D_DALITZ; + 0.1072 K+ pi- pi- pi0 PHSP; +Enddecay +# +Decay MyD+ + 0.0886 Myanti-K0 pi+ PHSP; + 0.8042 K- pi+ pi+ D_DALITZ; + 0.1072 K- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyK0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dmpip_DmKspipi0.dec b/BaBar_2014/B0B0bar_Dmpip_DmKspipi0.dec new file mode 100644 index 0000000..02920ab --- /dev/null +++ b/BaBar_2014/B0B0bar_Dmpip_DmKspipi0.dec @@ -0,0 +1,54 @@ +#################################################### +# Exclusive B0 -> D- pi+ decay # +# Decay: B0 -> D- pi+ # +# |-> Ks pi pi0 # +# |-> pi+ pi- # +# # +# + cc # +# # +# 3rd February 2003 # +# Kelly E. Ford # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyD- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- pi0 PHSP; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_Dmunubar_DmKspi.dec b/BaBar_2014/B0B0bar_Dmunubar_DmKspi.dec new file mode 100644 index 0000000..589b004 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dmunubar_DmKspi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->D+ l- anti-nu_l # +# |-> K0s pi+ # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0B +1.0000 MyD+ mu- anti-nu_mu ISGW2; +Enddecay +# +Decay MyB0 +1.0000 MyD- mu+ nu_mu ISGW2; +Enddecay +# +Decay MyD+ +1.0000 MyKs pi+ PHSP; +Enddecay +# +Decay MyD- +1.0000 MyKs pi- PHSP; +Enddecay# + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_DpDm_Kpipi_Kpipi.dec b/BaBar_2014/B0B0bar_DpDm_Kpipi_Kpipi.dec new file mode 100644 index 0000000..b14d23e --- /dev/null +++ b/BaBar_2014/B0B0bar_DpDm_Kpipi_Kpipi.dec @@ -0,0 +1,98 @@ +############################################################ +# # +# Exclusive DD decay.dec #2 # +# # +# DD . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D- D+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp +ChargeConj MyD+ MyD- + + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +CDecay MyD*- +CDecay MyD- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 + +End + diff --git a/BaBar_2014/B0B0bar_Dpi.dec b/BaBar_2014/B0B0bar_Dpi.dec new file mode 100644 index 0000000..bafc6ea --- /dev/null +++ b/BaBar_2014/B0B0bar_Dpi.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> D- pi+ + c.c. # +# | # +# | # +# ---> pi- pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> D- pi+ using phase space +# with D- -> pi+ pi- +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ pi- PHSP; +Enddecay +# +Decay MyD- +1.000 pi- pi0 PHSP; +Enddecay +# +Decay MyD+ +1.000 pi+ pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Dpi_CabSupD.dec b/BaBar_2014/B0B0bar_Dpi_CabSupD.dec new file mode 100644 index 0000000..20e2f82 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dpi_CabSupD.dec @@ -0,0 +1,69 @@ +################################################### +# # +# B0 -> D- pi+ + c.c. # +# | # +# | # +# ---> cabibbo suppressed decay of D- # +# # +# Author: Shahram Rahatlou, UCSD # +# Created: 3 July 2003 # +# # +################################################### +# +# Decay table for B0 -> D- pi+ using phase space +# with D- -> pi+ pi- +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ pi- PHSP; +Enddecay +# +Decay MyD- +0.0074 MyKs K- PHSP; +0.0042 MyK*0 K- SVS; +0.0010 K- MyKs pi0 PHSP; +0.0010 K- MyK*0 pi0 PHSP; +0.0010 K- MyKs pi+ pi- PHSP; +0.0010 K- MyK*0 pi+ pi- PHSP; +Enddecay +# +Decay MyD+ +0.0074 MyKs K+ PHSP; +0.0042 Myanti-K*0 K+ SVS; +0.0010 K+ MyKs pi0 PHSP; +0.0010 K+ Myanti-K*0 pi0 PHSP; +0.0010 K+ MyKs pi+ pi- PHSP; +0.0010 K+ Myanti-K*0 pi+ pi- PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dpi_DK0pi.dec b/BaBar_2014/B0B0bar_Dpi_DK0pi.dec new file mode 100644 index 0000000..4734bae --- /dev/null +++ b/BaBar_2014/B0B0bar_Dpi_DK0pi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> D- pi+ + c.c. # +# | # +# | # +# ---> K0S pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26 April '00 # +# # +################################################### +# +# Decay table for B0 -> D- pi+ using phase space +# with D- -> K0S pi-. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ pi- PHSP; +Enddecay +# +Decay MyD- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyD+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dpi_DmKpipi.dec b/BaBar_2014/B0B0bar_Dpi_DmKpipi.dec new file mode 100644 index 0000000..de26df8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dpi_DmKpipi.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B0 -> D- pi+ (D- -> K+ pi- pi-) # +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD- pi+ PHSP; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DplusK.dec b/BaBar_2014/B0B0bar_DplusK.dec new file mode 100644 index 0000000..5c99e01 --- /dev/null +++ b/BaBar_2014/B0B0bar_DplusK.dec @@ -0,0 +1,37 @@ +################################################### +# # +# Decay: anti-B0 -> D+ K-, B0 -> X; + cc # +# # +# Author: Natalia Kuznetsova # +# Date: 11/25/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +ChargeConj MyB0 Myanti-B0 +# +Alias MyD+ D+ +Alias MyD- D- +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ K- PHSP; +Enddecay +Decay MyB0 +1.000 MyD- K+ PHSP; +Enddecay +# +Decay MyD+ +0.0910 K- pi+ pi+ D_DALITZ; +0.0060 K- pi+ pi+ pi0 PHSP; +Enddecay +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +0.0060 K+ pi- pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DplusKst.dec b/BaBar_2014/B0B0bar_DplusKst.dec new file mode 100644 index 0000000..cdb902c --- /dev/null +++ b/BaBar_2014/B0B0bar_DplusKst.dec @@ -0,0 +1,61 @@ +################################################### +# # +# Decay: anti-B0 -> D+ K*-, B0 -> X; + cc # +# # +# Author: Natalia Kuznetsova # +# Date: 11/26/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +ChargeConj MyB0 Myanti-B0 +# +Alias MyD+ D+ +Alias MyD- D- +ChargeConj MyD+ MyD- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +ChargeConj MyK0 Myanti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*- MyD+ SVS; +Enddecay +Decay MyB0 +1.000 MyK*+ MyD- SVS; +Enddecay +# +Decay MyD+ +0.0910 K- pi+ pi+ D_DALITZ; +0.0060 K- pi+ pi+ pi0 PHSP; +Enddecay +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +0.0060 K+ pi- pi- pi0 PHSP; +Enddecay +# +Decay MyK*+ +0.6660 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.6660 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK0 +1.000 K_S0 PHSP; +Enddecay +Decay Myanti-K0 +1.000 K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DplusKstar.dec b/BaBar_2014/B0B0bar_DplusKstar.dec new file mode 100644 index 0000000..6c7b2a9 --- /dev/null +++ b/BaBar_2014/B0B0bar_DplusKstar.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Decay: anti-B0 -> D+ K*-, B0 -> X; + cc # +# # +# Author: Tania McMahon # +# Date: 05/30/02 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +ChargeConj MyB0 Myanti-B0 +# +Alias MyD+ D+ +Alias MyD- D- +ChargeConj MyD+ MyD- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*- MyD+ SVS; +Enddecay +Decay MyB0 +1.000 MyK*+ MyD- SVS; +Enddecay +# +Decay MyD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyK*+ +0.2265 MyK_S0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.2265 MyK_S0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DpmKpipimpi_Xclnu.dec b/BaBar_2014/B0B0bar_DpmKpipimpi_Xclnu.dec new file mode 100644 index 0000000..01d5a99 --- /dev/null +++ b/BaBar_2014/B0B0bar_DpmKpipimpi_Xclnu.dec @@ -0,0 +1,98 @@ +############################################################################### +# Up(4S) -> B0 B0bar + CC # +# | | # +# | +-> X_c l- nu_bar (l = e or mu) # +# | # +# +-> D-(K+pi-pi-) pi+ # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xclnu b decay +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# -- reco B +Alias rB0 B0 +Alias rantiB0 anti-B0 +ChargeConj rB0 rantiB0 +# +Alias rD+ D+ +Alias rD- D- +ChargeConj rD+ rD- +# +Decay Upsilon(4S) +0.50000 rB0 myantiB0 VSS_MIX dm; +0.50000 myB0 rantiB0 VSS_MIX dm; +Enddecay +# +# ---------------------------------------------------------------------- +# -- B decay +Decay rB0 +1.000 rD- pi+ PHSP; +Enddecay +# +Decay rantiB0 +1.000 rD+ pi- PHSP; +Enddecay +# -- D+ decay +Decay rD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay rD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# ---------------------------------------------------------------------- +# force myB0 to always decay to Xc l nu +# +# +Decay myantiB0 +0.0560 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ e- anti-nu_e PHOTOS ISGW2; +0.0056 D_1+ e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_1+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*+ e- anti-nu_e PHOTOS ISGW2; +0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB0 +0.0560 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- e+ nu_e PHOTOS ISGW2; +0.0056 D_1- e+ nu_e PHOTOS ISGW2; +0.0020 D_0*- e+ nu_e PHOTOS ISGW2; +0.0037 D'_1- e+ nu_e PHOTOS ISGW2; +0.0037 D_2*- e+ nu_e PHOTOS ISGW2; +0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- mu+ nu_mu PHOTOS ISGW2; +0.0056 D_1- mu+ nu_mu PHOTOS ISGW2; +0.0020 D_0*- mu+ nu_mu PHOTOS ISGW2; +0.0037 D'_1- mu+ nu_mu PHOTOS ISGW2; +0.0037 D_2*- mu+ nu_mu PHOTOS ISGW2; +0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DpmKpipimpi_Xulnu.dec b/BaBar_2014/B0B0bar_DpmKpipimpi_Xulnu.dec new file mode 100644 index 0000000..38eb33b --- /dev/null +++ b/BaBar_2014/B0B0bar_DpmKpipimpi_Xulnu.dec @@ -0,0 +1,128 @@ +############################################################################### +# Up(4S) -> B0 B0bar + CC # +# | | # +# | +-> X_u l- nu_bar (l = e or mu) # +# | # +# +-> D-(K+pi-pi-) pi+ # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xulnu b decay +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# -- reco B +Alias rB0 B0 +Alias rantiB0 anti-B0 +ChargeConj rB0 rantiB0 +# +Alias rD+ D+ +Alias rD- D- +ChargeConj rD+ rD- +# +Decay Upsilon(4S) +0.50000 rB0 myantiB0 VSS_MIX dm; +0.50000 myB0 rantiB0 VSS_MIX dm; +Enddecay +# +# ---------------------------------------------------------------------- +# -- B decay +Decay rB0 +1.000 rD- pi+ PHSP; +Enddecay +# +Decay rantiB0 +1.000 rD+ pi- PHSP; +Enddecay +# -- D+ decay +Decay rD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay rD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# ---------------------------------------------------------------------- +# force myB0 to always decay to Xu l nu +Decay myantiB0 +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000153 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000192 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000009 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000058 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000030 pi(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000072 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000180 pi+ mu- anti-nu_mu ISGW2; +0.000250 rho+ mu- anti-nu_mu ISGW2; +0.000153 a_1+ mu- anti-nu_mu ISGW2; +0.000192 b_1+ mu- anti-nu_mu ISGW2; +0.000009 a_0+ mu- anti-nu_mu ISGW2; +0.000058 a_2+ mu- anti-nu_mu ISGW2; +0.000030 pi(2S)+ mu- anti-nu_mu ISGW2; +0.000072 rho(2S)+ mu- anti-nu_mu ISGW2; +Enddecay +# +Decay myB0 +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000250 rho- e+ nu_e PHOTOS ISGW2; +0.000153 a_1- e+ nu_e PHOTOS ISGW2; +0.000192 b_1- e+ nu_e PHOTOS ISGW2; +0.000009 a_0- e+ nu_e PHOTOS ISGW2; +0.000058 a_2- e+ nu_e PHOTOS ISGW2; +0.000030 pi(2S)- e+ nu_e PHOTOS ISGW2; +0.000072 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000180 pi- mu+ nu_mu ISGW2; +0.000250 rho- mu+ nu_mu ISGW2; +0.000153 a_1- mu+ nu_mu ISGW2; +0.000192 b_1- mu+ nu_mu ISGW2; +0.000009 a_0- mu+ nu_mu ISGW2; +0.000058 a_2- mu+ nu_mu ISGW2; +0.000030 pi(2S)- mu+ nu_mu ISGW2; +0.000072 rho(2S)- mu+ nu_mu ISGW2; +Enddecay +# +Decay pi(2S)+ +0.3500 rho0 pi+ PHSP; +0.3500 rho+ pi0 PHSP; +0.2000 pi+ pi+ pi- PHSP; +0.1000 pi+ pi0 pi0 PHSP; +Enddecay +Decay pi(2S)- +0.3500 rho0 pi- PHSP; +0.3500 rho- pi0 PHSP; +0.2000 pi- pi+ pi- PHSP; +0.1000 pi- pi0 pi0 PHSP; +Enddecay +Decay pi(2S)0 +0.3500 rho+ pi- PHSP; +0.3500 rho- pi+ PHSP; +0.2000 pi+ pi- pi0 PHSP; +0.1000 pi0 pi0 pi0 PHSP; +Enddecay +# +Decay rho(2S)+ +0.4000 pi+ pi0 PHSP; +0.4000 pi+ pi+ pi- pi0 PHSP; +0.2000 pi+ pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)- +0.4000 pi- pi0 PHSP; +0.4000 pi- pi+ pi- pi0 PHSP; +0.2000 pi- pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)0 +0.4000 pi+ pi- PHSP; +0.3500 pi+ pi- pi+ pi- PHSP; +0.1500 pi+ pi- pi0 pi0 PHSP; +0.1000 pi0 pi0 pi0 pi0 PHSP; +Enddecay +Decay omega(2S) +0.5000 rho+ pi- PHSP; +0.5000 rho- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DpmKpipimrhompipi_Xclnu.dec b/BaBar_2014/B0B0bar_DpmKpipimrhompipi_Xclnu.dec new file mode 100644 index 0000000..f528c5d --- /dev/null +++ b/BaBar_2014/B0B0bar_DpmKpipimrhompipi_Xclnu.dec @@ -0,0 +1,98 @@ +############################################################################### +# Up(4S) -> B0 B0bar + CC # +# | | # +# | +-> X_c l- nu_bar (l = e or mu) # +# | # +# +-> D-(K+pi-pi-) rho+(pi+pi0) # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xclnu b decay +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# -- reco B +Alias rB0 B0 +Alias rantiB0 anti-B0 +ChargeConj rB0 rantiB0 +# +Alias rD+ D+ +Alias rD- D- +ChargeConj rD+ rD- +# +Decay Upsilon(4S) +0.50000 rB0 myantiB0 VSS_MIX dm; +0.50000 myB0 rantiB0 VSS_MIX dm; +Enddecay +# +# ---------------------------------------------------------------------- +# -- B decay +Decay rB0 +1.000 rho+ rD- SVS; +Enddecay +# +Decay rantiB0 +1.000 rho- rD+ SVS; +Enddecay +# -- D+ decay +Decay rD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay rD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# ---------------------------------------------------------------------- +# force myB0 to always decay to Xc l nu +# +# +Decay myantiB0 +0.0560 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ e- anti-nu_e PHOTOS ISGW2; +0.0056 D_1+ e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_1+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*+ e- anti-nu_e PHOTOS ISGW2; +0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB0 +0.0560 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- e+ nu_e PHOTOS ISGW2; +0.0056 D_1- e+ nu_e PHOTOS ISGW2; +0.0020 D_0*- e+ nu_e PHOTOS ISGW2; +0.0037 D'_1- e+ nu_e PHOTOS ISGW2; +0.0037 D_2*- e+ nu_e PHOTOS ISGW2; +0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- mu+ nu_mu PHOTOS ISGW2; +0.0056 D_1- mu+ nu_mu PHOTOS ISGW2; +0.0020 D_0*- mu+ nu_mu PHOTOS ISGW2; +0.0037 D'_1- mu+ nu_mu PHOTOS ISGW2; +0.0037 D_2*- mu+ nu_mu PHOTOS ISGW2; +0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DpmKpipimrhompipi_Xulnu.dec b/BaBar_2014/B0B0bar_DpmKpipimrhompipi_Xulnu.dec new file mode 100644 index 0000000..299cdbe --- /dev/null +++ b/BaBar_2014/B0B0bar_DpmKpipimrhompipi_Xulnu.dec @@ -0,0 +1,128 @@ +############################################################################### +# Up(4S) -> B0 B0bar + CC # +# | | # +# | +-> X_u l- nu_bar (l = e or mu) # +# | # +# +-> D-(K+pi-pi-) rho+(pi+pi0) # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xulnu b decay +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# -- reco B +Alias rB0 B0 +Alias rantiB0 anti-B0 +ChargeConj rB0 rantiB0 +# +Alias rD+ D+ +Alias rD- D- +ChargeConj rD+ rD- +# +Decay Upsilon(4S) +0.50000 rB0 myantiB0 VSS_MIX dm; +0.50000 myB0 rantiB0 VSS_MIX dm; +Enddecay +# +# ---------------------------------------------------------------------- +# -- B decay +Decay rB0 +1.000 rho+ rD- SVS; +Enddecay +# +Decay rantiB0 +1.000 rho- rD+ SVS; +Enddecay +# -- D+ decay +Decay rD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay rD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# ---------------------------------------------------------------------- +# force myB0 to always decay to Xu l nu +Decay myantiB0 +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000153 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000192 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000009 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000058 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000030 pi(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000072 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000180 pi+ mu- anti-nu_mu ISGW2; +0.000250 rho+ mu- anti-nu_mu ISGW2; +0.000153 a_1+ mu- anti-nu_mu ISGW2; +0.000192 b_1+ mu- anti-nu_mu ISGW2; +0.000009 a_0+ mu- anti-nu_mu ISGW2; +0.000058 a_2+ mu- anti-nu_mu ISGW2; +0.000030 pi(2S)+ mu- anti-nu_mu ISGW2; +0.000072 rho(2S)+ mu- anti-nu_mu ISGW2; +Enddecay +# +Decay myB0 +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000250 rho- e+ nu_e PHOTOS ISGW2; +0.000153 a_1- e+ nu_e PHOTOS ISGW2; +0.000192 b_1- e+ nu_e PHOTOS ISGW2; +0.000009 a_0- e+ nu_e PHOTOS ISGW2; +0.000058 a_2- e+ nu_e PHOTOS ISGW2; +0.000030 pi(2S)- e+ nu_e PHOTOS ISGW2; +0.000072 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000180 pi- mu+ nu_mu ISGW2; +0.000250 rho- mu+ nu_mu ISGW2; +0.000153 a_1- mu+ nu_mu ISGW2; +0.000192 b_1- mu+ nu_mu ISGW2; +0.000009 a_0- mu+ nu_mu ISGW2; +0.000058 a_2- mu+ nu_mu ISGW2; +0.000030 pi(2S)- mu+ nu_mu ISGW2; +0.000072 rho(2S)- mu+ nu_mu ISGW2; +Enddecay +# +Decay pi(2S)+ +0.3500 rho0 pi+ PHSP; +0.3500 rho+ pi0 PHSP; +0.2000 pi+ pi+ pi- PHSP; +0.1000 pi+ pi0 pi0 PHSP; +Enddecay +Decay pi(2S)- +0.3500 rho0 pi- PHSP; +0.3500 rho- pi0 PHSP; +0.2000 pi- pi+ pi- PHSP; +0.1000 pi- pi0 pi0 PHSP; +Enddecay +Decay pi(2S)0 +0.3500 rho+ pi- PHSP; +0.3500 rho- pi+ PHSP; +0.2000 pi+ pi- pi0 PHSP; +0.1000 pi0 pi0 pi0 PHSP; +Enddecay +# +Decay rho(2S)+ +0.4000 pi+ pi0 PHSP; +0.4000 pi+ pi+ pi- pi0 PHSP; +0.2000 pi+ pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)- +0.4000 pi- pi0 PHSP; +0.4000 pi- pi+ pi- pi0 PHSP; +0.2000 pi- pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)0 +0.4000 pi+ pi- PHSP; +0.3500 pi+ pi- pi+ pi- PHSP; +0.1500 pi+ pi- pi0 pi0 PHSP; +0.1000 pi0 pi0 pi0 pi0 PHSP; +Enddecay +Decay omega(2S) +0.5000 rho+ pi- PHSP; +0.5000 rho- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dppim.dec b/BaBar_2014/B0B0bar_Dppim.dec new file mode 100644 index 0000000..b552a64 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dppim.dec @@ -0,0 +1,34 @@ +#################################################### +# # +# Inclusive D pi decay.dec#1 # +# # +# D pi from B0-antiB0 for SP2 # +# # +# # +# Decay: anti-B0 -> D+ pi-, B0 -> X +c.c. # +# |-> X # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 D+ pi- PHSP; +Enddecay +# +# +Decay MyB0 +1.000 D- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_Dppim_KsK.dec b/BaBar_2014/B0B0bar_Dppim_KsK.dec new file mode 100644 index 0000000..a68bb1e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dppim_KsK.dec @@ -0,0 +1,38 @@ +################################################################# +# # +# Decay: B0bar -> D+ pi- , B0 -> X # +# | # +# ----> K0s K+ # +# + c.c. # +# # +# Author: Kelly E Ford # +# Date: 7 May 2003 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD- pi+ PHSP; +Enddecay +# +Decay MyD- +1.0000 K_S0 K- PHSP; +Enddecay +# +Decay MyD+ +1.0000 K_S0 K+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dppim_Kspi.dec b/BaBar_2014/B0B0bar_Dppim_Kspi.dec new file mode 100644 index 0000000..983faf7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dppim_Kspi.dec @@ -0,0 +1,38 @@ +################################################################# +# # +# Decay: B0bar -> D+ pi- , B0 -> X # +# | # +# ----> K0s pi+ # +# + c.c. # +# # +# Author: Dennis Wright # +# Date: 8 March 2002 # +################################################################# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD- pi+ PHSP; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dprhom.dec b/BaBar_2014/B0B0bar_Dprhom.dec new file mode 100644 index 0000000..fd1d112 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprhom.dec @@ -0,0 +1,33 @@ +#################################################### +# # +# Inclusive Drho decay.dec #1 # +# # +# D rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D+ rho-, B0 -> X +c.c. # +# |-> X # +# # +# 25 Oct 99 # +# Roy Aleksan (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 rho- D+ SVS; +Enddecay +# +Decay MyB0 +1.0000 rho+ D- SVS; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_Dprime1pluslnu_Dstr0PDG_D0Kpi.dec b/BaBar_2014/B0B0bar_Dprime1pluslnu_Dstr0PDG_D0Kpi.dec new file mode 100644 index 0000000..2242f91 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprime1pluslnu_Dstr0PDG_D0Kpi.dec @@ -0,0 +1,99 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D'_1+ l nu # +# |-> D*0 pi0 # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +############################################################ +# +# +Alias myB0 B0 +Alias myanti-B0 anti-B0 +# +Alias myD'_1+ D'_1+ +Alias myD'_1- D'_1- +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myanti-B0 VSS_BMIX dm; +Enddecay +# + + +# +# B +# +Decay myanti-B0 +0.5000 myD'_1+ e- anti-nu_e PHOTOS ISGW2; +0.5000 myD'_1+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB0 +0.5000 myD'_1- e+ nu_e PHOTOS ISGW2; +0.5000 myD'_1- mu+ nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D'_1+ / D'_1- +# +Decay myD'_1+ +1.0000 myD*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay myD'_1- +1.0000 myanti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/B0B0bar_Dprime_1pa1m_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dprime_1pa1m_DstarD0pi.dec new file mode 100644 index 0000000..67dfccb --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprime_1pa1m_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D'_1+ a1- decay.dec # +# # +# Decay: B0b -> D'_1+ a1-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 18 jun 01 Fabrizio Salvatore (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD'_1- a_1+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD'_1+ a_1- PHSP; +Enddecay +# +Decay MyD'_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.6667 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dprime_1ppim_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dprime_1ppim_DstarD0pi.dec new file mode 100644 index 0000000..c5c94ce --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprime_1ppim_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D'_1+ pi- decay.dec # +# # +# Decay: B0b -> D'_1+ pi-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD'_1- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD'_1+ pi- SVS; +Enddecay +# +Decay MyD'_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.6667 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi.dec new file mode 100644 index 0000000..3c501e5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive B0bar -> D'_1+ rho- decay.dec # +# # +# Decay: B0b -> D'_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD'_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD'_1+ rho- PHSP; +Enddecay +# +Decay MyD'_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.6667 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0K3pi.dec b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0K3pi.dec new file mode 100644 index 0000000..0d35d8d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0K3pi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B0bar -> D'_1+ rho- decay.dec # +# # +# Decay: B0b -> D'_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD'_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD'_1+ rho- PHSP; +Enddecay +# +Decay MyD'_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.6667 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0Kpi.dec b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..8206353 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0Kpi.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Inclusive B0bar -> D'_1+ rho- decay.dec # +# # +# Decay: B0b -> D'_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD'_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD'_1+ rho- PHSP; +Enddecay +# +Decay MyD'_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.6667 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0Kpipi0.dec b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0Kpipi0.dec new file mode 100644 index 0000000..6263796 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dprime_1prhom_DstarD0pi_D0Kpipi0.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Inclusive B0bar -> D'_1+ rho- decay.dec # +# # +# Decay: B0b -> D'_1+ eho-, B0 -> X +c.c. # +# |-> D*+ pi0 # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias Myanti-B0 anti-B0 +Alias MyB0 B0 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD'_1- rho+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD'_1+ rho- PHSP; +Enddecay +# +Decay MyD'_1+ +0.6667 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.6667 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DsDm_phipi_Kpipi.dec b/BaBar_2014/B0B0bar_DsDm_phipi_Kpipi.dec new file mode 100644 index 0000000..250bb6e --- /dev/null +++ b/BaBar_2014/B0B0bar_DsDm_phipi_Kpipi.dec @@ -0,0 +1,110 @@ +############################################################ +# # +# Exclusive DsD decay.dec #2 # +# # +# DsD . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds+ D- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp +ChargeConj MyD+ MyD- + + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +Decay MyB0 +## confirm PHSP for decay! +1.0000 MyD- MyD_s+ PHSP; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD_s+ +1.0000 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +CDecay MyD*- +CDecay MyD+ +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 + +End + diff --git a/BaBar_2014/B0B0bar_DsK_DsK0sK.dec b/BaBar_2014/B0B0bar_DsK_DsK0sK.dec new file mode 100644 index 0000000..b1e7c8c --- /dev/null +++ b/BaBar_2014/B0B0bar_DsK_DsK0sK.dec @@ -0,0 +1,53 @@ +#################################################### +# # +# Exclusive Ds-pi+ decay.dec #1 # +# # +# DsD* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds+ K, B0 -> X +c.c. # +# | # +# `-> Ks K+ # +# | # +# `-> K pi # +# 1 01 # +# Cecilia Voena # +# modified by Sh. Rahatlou 4 May 2001 # +# removed the definition of dm in order to # +# use the default. # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_s+ K- PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 MyK_S0 K+ PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyD_s- K+ PHSP; +Enddecay +# +Decay MyD_s- +1.0000 MyK_S0 K- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# + +End + + diff --git a/BaBar_2014/B0B0bar_DsK_Dskstark.dec b/BaBar_2014/B0B0bar_DsK_Dskstark.dec new file mode 100644 index 0000000..d8dcf1d --- /dev/null +++ b/BaBar_2014/B0B0bar_DsK_Dskstark.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Exclusive Ds-pi+ decay.dec #1 # +# # +# DsD* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds+ K, B0 -> X +c.c. # +# | # +# `-> K* K+ # +# | # +# `-> K pi # +# 1 01 # +# Cecilia Voena # +# modified by Sh. Rahatlou 4 May 2001 # +# removed the definition of dm in order to # +# use the default. # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_s+ K- PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyB0 +1.0000 MyD_s- K+ PHSP; +Enddecay +# +Decay MyD_s- +1.0000 MyK*0 K- SVS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# + + +End + + diff --git a/BaBar_2014/B0B0bar_DsK_Dsphipi.dec b/BaBar_2014/B0B0bar_DsK_Dsphipi.dec new file mode 100644 index 0000000..a6d97f6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsK_Dsphipi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Exclusive Ds-K+ decay.dec #1 # +# # +# DsK signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds+ K-, B0 -> X +c.c. # +# | # +# `-> phi pi+ # +# | # +# `-> K- K+ # +# 1 01 # +# Cecilia Voena # +# modified by Sh. Rahatlou 4 May 2001 # +# removed the definition of dm in order to # +# use the default. # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_s+ K- PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyB0 +1.0000 MyD_s- K+ PHSP; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DsKstar_DsK0sK.dec b/BaBar_2014/B0B0bar_DsKstar_DsK0sK.dec new file mode 100644 index 0000000..5633eaa --- /dev/null +++ b/BaBar_2014/B0B0bar_DsKstar_DsK0sK.dec @@ -0,0 +1,63 @@ +#################################################### +# # +# Exclusive Ds-K*+ decay.dec #1 # +# # +# DsK* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds- K*+, B0 -> X +c.c. # +# | # +# `-> Ks K- # +# | # +# `-> pi+ pi- # +# 1 01 # +# Cecilia Voena # +# modified by Sh. Rahatlou 4 May 2001 # +# removed the definition of dm in order to # +# use the default. # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyK*- MyD_s+ SVS; +Enddecay +# +Decay MyD_s+ +1.0000 MyK_S0 K+ PHSP; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyB0 +1.0000 MyK*+ MyD_s- SVS; +Enddecay +# +Decay MyD_s- +1.0000 MyK_S0 K- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_DsKstar_Dskstark.dec b/BaBar_2014/B0B0bar_DsKstar_Dskstark.dec new file mode 100644 index 0000000..9a83b4c --- /dev/null +++ b/BaBar_2014/B0B0bar_DsKstar_Dskstark.dec @@ -0,0 +1,67 @@ +#################################################### +# # +# Exclusive Ds-K*+ decay.dec #1 # +# # +# DsK* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds- K*+, B0 -> X +c.c. # +# | # +# `-> K*0 K- # +# | # +# `-> K+ pi- # +# 1 01 # +# Cecilia Voena # +# modified by Sh. Rahatlou 4 May 2001 # +# removed the definition of dm in order to # +# use the default. # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyK*- MyD_s+ SVS; +Enddecay +# +Decay MyD_s+ +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyB0 +1.0000 MyK*+ MyD_s- SVS; +Enddecay +# +Decay MyD_s- +1.0000 MyK*0 K- SVS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_DsKstar_Dsphipi.dec b/BaBar_2014/B0B0bar_DsKstar_Dsphipi.dec new file mode 100644 index 0000000..2aa5063 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsKstar_Dsphipi.dec @@ -0,0 +1,62 @@ +#################################################### +# # +# Exclusive Ds-K*+ decay.dec #1 # +# # +# DsK* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds- K*+, B0 -> X +c.c. # +# | # +# `-> phi pi- # +# | # +# `-> K- K+ # +# 1 01 # +# Cecilia Voena # +# modified by Sh. Rahatlou 4 May 2001 # +# removed the definition of dm in order to # +# use the default. # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyK*- MyD_s+ SVS; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + + +Decay MyB0 +1.0000 MyK*+ MyD_s- SVS; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_DsKstar_K0pi.dec b/BaBar_2014/B0B0bar_DsKstar_K0pi.dec new file mode 100644 index 0000000..747321f --- /dev/null +++ b/BaBar_2014/B0B0bar_DsKstar_K0pi.dec @@ -0,0 +1,98 @@ +############################################################ +# # +# Exclusive Ds Kstar decay.dec # +# # +# Decay: B0 -> Ds- K*+ B- -> X # +# | |-> K0 pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: A. Merchant 7/May/2003 # +# Modified: A. Merchant 13/May/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK02 K0 +Alias MyK0bar2 anti-K0 +Alias MyK_S02 K_S0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*+ MyK*- +# +ChargeConj MyK0bar2 MyK02 +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyK*+ MyD_s- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK*+ +1.0000 MyK02 pi+ VSS; +Enddecay +CDecay MyK*- +# +Decay MyK02 +1.0000 MyK_S02 PHSP; +Enddecay +CDecay MyK0bar2 +# +Decay MyK_S02 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DsKstar_recomodes.dec b/BaBar_2014/B0B0bar_DsKstar_recomodes.dec new file mode 100644 index 0000000..d8ecc78 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsKstar_recomodes.dec @@ -0,0 +1,100 @@ +############################################################ +# # +# Exclusive Ds Kstar decay.dec # +# # +# Decay: B0 -> Ds- K*+ B- -> X # +# | |-> K+ pi0, K0 pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: A. Merchant 7/May/2003 # +# Modified: A. Merchant 26/May/2003 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK02 K0 +Alias MyK0bar2 anti-K0 +Alias MyK_S02 K_S0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*+ MyK*- +# +ChargeConj MyK0bar2 MyK02 +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyK*+ MyD_s- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK*+ +0.6667 MyK02 pi+ VSS; +0.3333 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +Decay MyK02 +1.0000 MyK_S02 PHSP; +Enddecay +CDecay MyK0bar2 +# +Decay MyK_S02 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_D_KstarK_k2pi.dec b/BaBar_2014/B0B0bar_Ds_D_KstarK_k2pi.dec new file mode 100644 index 0000000..3993131 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_D_KstarK_k2pi.dec @@ -0,0 +1,139 @@ +############################################################ +# # +# Exclusive Ds(*)D(*) decay.dec # +# # +# Decay: B+ -> Ds+ D- B- ->X # +# | | # +# |->kstark |-> kpipi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s+ MyD- PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_D_phipi_k2pi.dec b/BaBar_2014/B0B0bar_Ds_D_phipi_k2pi.dec new file mode 100644 index 0000000..635323b --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_D_phipi_k2pi.dec @@ -0,0 +1,139 @@ +############################################################ +# # +# Exclusive Ds(*)D(*) decay.dec # +# # +# Decay: B+ -> Ds+ D- B- ->X # +# | | # +# |->phipi |-> kpipivv # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s+ MyD- PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_D_recomodes.dec b/BaBar_2014/B0B0bar_Ds_D_recomodes.dec new file mode 100644 index 0000000..324826f --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_D_recomodes.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds*+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s+ MyD- PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_k3pi.dec b/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_k3pi.dec new file mode 100755 index 0000000..e8a71f7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_k3pi.dec @@ -0,0 +1,137 @@ +############################################################ +# # +# DsD*- from B0 B0bar for SP4 # +# # +# Decay: B0 -> Ds+ D*- B0bar -> X # +# | | # +# K*K K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpi.dec b/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpi.dec new file mode 100755 index 0000000..ec2af72 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpi.dec @@ -0,0 +1,131 @@ +############################################################ +# # +# DsD*- from B0 B0bar for SP4 # +# # +# Decay: B0 -> Ds+ D*- B0bar -> X # +# | | # +# K*K Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpipi0.dec b/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpipi0.dec new file mode 100755 index 0000000..97d295a --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_Dstar_KstarK_kpipi0.dec @@ -0,0 +1,131 @@ +############################################################ +# # +# DsD*- from B0 B0bar for SP4 # +# # +# Decay: B0 -> Ds+ D*- B0bar -> X # +# | | # +# K*K Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_Dstar_phipi_k3pi.dec b/BaBar_2014/B0B0bar_Ds_Dstar_phipi_k3pi.dec new file mode 100755 index 0000000..f582da0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_Dstar_phipi_k3pi.dec @@ -0,0 +1,137 @@ +############################################################ +# # +# DsD*- from B0 B0bar for SP4 # +# # +# Decay: B0 -> Ds+ D*- B0bar -> X # +# | | # +# phipi K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpi.dec b/BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpi.dec new file mode 100755 index 0000000..51040e1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpi.dec @@ -0,0 +1,131 @@ +############################################################ +# # +# DsD*- from B0 B0bar for SP4 # +# # +# Decay: B0 -> Ds+ D*- B0bar -> X # +# | | # +# phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpipi0.dec b/BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpipi0.dec new file mode 100755 index 0000000..5181022 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_Dstar_phipi_kpipi0.dec @@ -0,0 +1,131 @@ +############################################################ +# # +# DsD*- from B0 B0bar for SP4 # +# # +# Decay: B0 -> Ds+ D*- B0bar -> X # +# | | # +# phipi Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_Dstar_recomodes.dec b/BaBar_2014/B0B0bar_Ds_Dstar_recomodes.dec new file mode 100644 index 0000000..df66e54 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_Dstar_recomodes.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds*+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_a1_rho0_pi_recomodes.dec b/BaBar_2014/B0B0bar_Ds_a1_rho0_pi_recomodes.dec new file mode 100644 index 0000000..b0be5d1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_a1_rho0_pi_recomodes.dec @@ -0,0 +1,85 @@ +############################################################ +# # +# Exclusive Ds a1 decay.dec # +# # +# Decay: B0 -> Ds+ a1- B0bar -> X # +# | |->pi- rho0 # +# |->recon- # +# structible # +# modes # +# + c.c. # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj Mya_1- Mya_1+ +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_1- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_Ds_pi_recomodes.dec b/BaBar_2014/B0B0bar_Ds_pi_recomodes.dec new file mode 100644 index 0000000..6a06dc6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_pi_recomodes.dec @@ -0,0 +1,74 @@ +############################################################ +# # +# Exclusive Ds pi decay.dec # +# # +# Decay: B0 -> Ds+ pi- B0bar -> X # +# | # +# |->recon- # +# structible # +# modes # +# + c.c. # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes = Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s+ pi- PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ds_rho_recomodes.dec b/BaBar_2014/B0B0bar_Ds_rho_recomodes.dec new file mode 100644 index 0000000..c8313d6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ds_rho_recomodes.dec @@ -0,0 +1,75 @@ +############################################################ +# # +# Exclusive Ds rho decay.dec # +# # +# Decay: B0 -> Ds+ rho- B0bar -> X # +# | # +# |->recon- # +# structible # +# modes # +# + c.c. # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 11/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 rho- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_DspDsm_DspToPhiPip.dec b/BaBar_2014/B0B0bar_DspDsm_DspToPhiPip.dec new file mode 100644 index 0000000..995f164 --- /dev/null +++ b/BaBar_2014/B0B0bar_DspDsm_DspToPhiPip.dec @@ -0,0 +1,47 @@ +########################################################## +# # +# Decay: B0 -> D_s- D_s+, : anti-B0 -> X # +# |->phi pi- |->phi pi+ # +# # +# Author: Asish Satpathy # +# Date: 17/Feb/2003 # +########################################################## +# +## B0 -> Ds Ds -> phipi + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias Myphi phi + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s+ MyD_s- +ChargeConj Myphi Myphi + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.000 MyD_s- MyD_s+ PHSP; +Enddecay + +CDecay Myanti-B0 + +Decay MyD_s+ +1.000 Myphi pi+ SVS; +Enddecay + +CDecay MyD_s- + +Decay Myphi +1.000 K+ K- VSS; +Enddecay + +End + + + + + diff --git a/BaBar_2014/B0B0bar_Dsp_a0m.dec b/BaBar_2014/B0B0bar_Dsp_a0m.dec new file mode 100755 index 0000000..843784c --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsp_a0m.dec @@ -0,0 +1,101 @@ +######################################################################## +# # +# Decay: B0 -> Ds+ a0- B0bar -> X # +# | # +# |-> 5 modes (see below) # +# + c.c. # +# # +# Author: V. Eyges 31/Jan/2004 # +# # +# Ds+ -> phi pi+, phi rho+, anti-K0 K+, anti-K*0 K+, K*+ anti-K0 # +# a0+(980) -> eta pi+ # +# eta -> gamma gamma, pi+ pi- pi0 # +# # +######################################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK*+ MyK*- +ChargeConj MyK0bar MyK0 +# +ChargeConj Mya_0- Mya_0+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s+ Mya_0- PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +0.1670 Myphi pi+ SVS; +0.3120 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1530 Myanti-K*0 K+ SVS; +0.2000 MyK*+ MyK0bar SVS; +0.1680 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay MyK*+ +0.6700 MyK0 pi+ VSS; +0.3300 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay Mya_0- +# +Decay Myeta +0.6070 gamma gamma PHSP; +0.3930 pi+ pi- pi0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Dsp_a2m.dec b/BaBar_2014/B0B0bar_Dsp_a2m.dec new file mode 100755 index 0000000..c1e3689 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsp_a2m.dec @@ -0,0 +1,101 @@ +######################################################################## +# # +# Decay: B0 -> Ds+ a2- B0bar -> X # +# | # +# |-> 5 modes (see below) # +# + c.c. # +# # +# Author: V. Eyges 31/Jan/2004 # +# # +# Ds+ -> phi pi+, phi rho+, anti-K0 K+, anti-K*0 K+, K*+ anti-K0 # +# a2+(1320)-> eta pi+ # +# eta -> gamma gamma, pi+ pi- pi0 # +# # +######################################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +Alias Mya_2+ a_2+ +Alias Mya_2- a_2- +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK*+ MyK*- +ChargeConj MyK0bar MyK0 +# +ChargeConj Mya_2- Mya_2+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_2- MyD_s+ STS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +0.1670 Myphi pi+ SVS; +0.3120 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1530 Myanti-K*0 K+ SVS; +0.2000 MyK*+ MyK0bar SVS; +0.1680 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay MyK*+ +0.6700 MyK0 pi+ VSS; +0.3300 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay Mya_2+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay Mya_2- +# +Decay Myeta +0.6070 gamma gamma PHSP; +0.3930 pi+ pi- pi0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Dspi_DsK0sK.dec b/BaBar_2014/B0B0bar_Dspi_DsK0sK.dec new file mode 100644 index 0000000..2f14e0f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dspi_DsK0sK.dec @@ -0,0 +1,50 @@ +#################################################### +# # +# Inclusive Ds*-Pi+ decay.dec #2 # +# # +# DsD* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds*- pi+, B0 -> X +c.c. # +# | # +# `-> K0s K- # +# | # +# `-> pi+ pi- # +# 05 Oct 00 # +# Akram Khan # +#################################################### +# +Define dm .464e12 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_s- pi+ PHSP; +Enddecay +# +Decay MyD_s- +1.0000 MyK_S0 K- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyD_s+ pi- PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 MyK_S0 K+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Dspi_DsKstar0K.dec b/BaBar_2014/B0B0bar_Dspi_DsKstar0K.dec new file mode 100644 index 0000000..f8c440c --- /dev/null +++ b/BaBar_2014/B0B0bar_Dspi_DsKstar0K.dec @@ -0,0 +1,55 @@ +#################################################### +# # +# Inclusive Ds*-Pi+ decay.dec #3 # +# # +# DsD* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds*- pi+, B0 -> X +c.c. # +# | # +# `-> K*0 K- # +# | # +# `-> K+ pi- # +# 05 Oct 00 # +# Akram Khan # +#################################################### +# +Define dm .464e12 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_s- pi+ PHSP; +Enddecay +# +Decay MyD_s- +1.0000 MyK*0 K- SVS; +Enddecay +# +Decay MyB0 +1.0000 MyD_s+ pi- PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 Myanti-K*0 K+ SVS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Dspi_DsetaPpi.dec b/BaBar_2014/B0B0bar_Dspi_DsetaPpi.dec new file mode 100644 index 0000000..cbcff79 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dspi_DsetaPpi.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Exclusive Ds pi decay.dec # +# # +# Decay: B0 -> Ds+ pi- B0bar -> X # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 22/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s+ pi- PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +1.0000 MyetaP pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_Dspi_Dsetapi.dec b/BaBar_2014/B0B0bar_Dspi_Dsetapi.dec new file mode 100644 index 0000000..ff81dd7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dspi_Dsetapi.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Exclusive Ds pi decay.dec # +# # +# Decay: B0 -> Ds+ pi- B0bar -> X # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s+ pi- PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_Dspi_Dsphipi.dec b/BaBar_2014/B0B0bar_Dspi_Dsphipi.dec new file mode 100644 index 0000000..efdfdd9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dspi_Dsphipi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Exclusive Ds*-pi+ decay.dec #1 # +# # +# DsD* signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds*- pi+, B0 -> X +c.c. # +# | # +# `-> phi pi- # +# | # +# `-> K- K+ # +# 05 Oct 00 # +# Akram Khan # +# modified by Sh. Rahatlou 4 May 2001 # +# removed the definition of dm in order to # +# use the default. # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_s- pi+ PHSP; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyB0 +1.0000 MyD_s+ pi- PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Dsrho_DsetaPpi.dec b/BaBar_2014/B0B0bar_Dsrho_DsetaPpi.dec new file mode 100644 index 0000000..b35c7a4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsrho_DsetaPpi.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Exclusive Ds rho decay.dec # +# # +# Decay: B0 -> Ds+ rho- B0bar -> X # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 22/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 rho- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsrho_Dsetapi.dec b/BaBar_2014/B0B0bar_Dsrho_Dsetapi.dec new file mode 100644 index 0000000..2a373d5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsrho_Dsetapi.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Exclusive Ds rho decay.dec # +# # +# Decay: B0 -> Ds+ rho- B0bar -> X # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 rho- MyD_s+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_D_KstarK_k2pi.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_D_KstarK_k2pi.dec new file mode 100755 index 0000000..afbedfd --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_D_KstarK_k2pi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD- MyD_s0*+KstarK PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_D_phipi_k2pi.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_D_phipi_k2pi.dec new file mode 100755 index 0000000..4a94ba1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_D_phipi_k2pi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD- MyD_s0*+ PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_k3pi.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_k3pi.dec new file mode 100755 index 0000000..3e21a6b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_k3pi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s0*+KstarK SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_kpi.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_kpi.dec new file mode 100755 index 0000000..cd583f2 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_kpi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s0*+KstarK SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_kpipi0.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_kpipi0.dec new file mode 100755 index 0000000..34eb9ea --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_KstarK_kpipi0.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s0*+KstarK SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_k3pi.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_k3pi.dec new file mode 100755 index 0000000..4d794ea --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_k3pi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s0*+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_kpi.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_kpi.dec new file mode 100755 index 0000000..a48f9d3 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_kpi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s0*+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_kpipi0.dec b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_kpipi0.dec new file mode 100755 index 0000000..b551130 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss0toDspi0_Dstar_phipi_kpipi0.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s0*+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_D_KstarK_k2pi.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_D_KstarK_k2pi.dec new file mode 100644 index 0000000..6ae0d6a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_D_KstarK_k2pi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s1+KstarK MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_D_phipi_k2pi.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_D_phipi_k2pi.dec new file mode 100644 index 0000000..716514e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_D_phipi_k2pi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s1+ MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_k3pi.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_k3pi.dec new file mode 100644 index 0000000..c8a3d54 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_k3pi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_kpi.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_kpi.dec new file mode 100644 index 0000000..74dad67 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_kpi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_kpipi0.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_kpipi0.dec new file mode 100644 index 0000000..8a630d4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_KstarK_kpipi0.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_k3pi.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_k3pi.dec new file mode 100644 index 0000000..843a5c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_k3pi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_kpi.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_kpi.dec new file mode 100644 index 0000000..6310704 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_kpi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_kpipi0.dec b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_kpipi0.dec new file mode 100644 index 0000000..3274318 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsgamma_Dstar_phipi_kpipi0.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_D_KstarK_k2pi.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_D_KstarK_k2pi.dec new file mode 100644 index 0000000..afdaea9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_D_KstarK_k2pi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s1+KstarK MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_D_phipi_k2pi.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_D_phipi_k2pi.dec new file mode 100644 index 0000000..1e7bebd --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_D_phipi_k2pi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s1+ MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_k3pi.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_k3pi.dec new file mode 100644 index 0000000..fc0349e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_k3pi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_kpi.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_kpi.dec new file mode 100644 index 0000000..4de4b4b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_kpi.dec @@ -0,0 +1,277 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_kpipi0.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_kpipi0.dec new file mode 100644 index 0000000..50548d0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_KstarK_kpipi0.dec @@ -0,0 +1,293 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_k3pi.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_k3pi.dec new file mode 100644 index 0000000..1a10bf8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_k3pi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_kpi.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_kpi.dec new file mode 100644 index 0000000..8c6c5a5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_kpi.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_kpipi0.dec b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_kpipi0.dec new file mode 100644 index 0000000..e8395cb --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDspi0_Dstar_phipi_kpipi0.dec @@ -0,0 +1,279 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_D_KstarK_k2pi.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_D_KstarK_k2pi.dec new file mode 100644 index 0000000..ef234e8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_D_KstarK_k2pi.dec @@ -0,0 +1,286 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s1+KstarK MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_D_phipi_k2pi.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_D_phipi_k2pi.dec new file mode 100644 index 0000000..63c840f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_D_phipi_k2pi.dec @@ -0,0 +1,288 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s1+ MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_k3pi.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_k3pi.dec new file mode 100644 index 0000000..e547be3 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_k3pi.dec @@ -0,0 +1,286 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_kpi.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_kpi.dec new file mode 100644 index 0000000..1e342d1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_kpi.dec @@ -0,0 +1,286 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_kpipi0.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_kpipi0.dec new file mode 100644 index 0000000..490c4ce --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_KstarK_kpipi0.dec @@ -0,0 +1,286 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s1+KstarK SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_k3pi.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_k3pi.dec new file mode 100644 index 0000000..1b55116 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_k3pi.dec @@ -0,0 +1,288 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-K3pi MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_kpi.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_kpi.dec new file mode 100644 index 0000000..c5c2047 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_kpi.dec @@ -0,0 +1,288 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpi MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_kpipi0.dec b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_kpipi0.dec new file mode 100644 index 0000000..702f3df --- /dev/null +++ b/BaBar_2014/B0B0bar_Dss1toDsstarpi0_Dstar_phipi_kpipi0.dec @@ -0,0 +1,288 @@ +############################################################ +# # +# Exclusive Ds*+ D*- decay.dec # +# # +# DsD*- from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D*- B- -> X # +# |->Ds+pi0 | # +# |-> kstark D0->K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*+Kpi D*+ +Alias MyD*-Kpi D*- +Alias MyD*+K3pi D*+ +Alias MyD*-K3pi D*- +Alias MyD*+Kpipi0 D*+ +Alias MyD*-Kpipi0 D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+Kpi MyD*-Kpi +ChargeConj MyD*+Kpipi0 MyD*-Kpipi0 +ChargeConj MyD*+K3pi MyD*-K3pi +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*-Kpipi0 MyD_s1+ SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*+Kpi +0.6830 MyD0Kpi pi+ VSS; +Enddecay +CDecay MyD*-Kpi +# +Decay MyD*+Kpipi0 +0.6830 MyD0Kpipi0 pi+ VSS; +Enddecay +CDecay MyD*-Kpipi0 +# +Decay MyD*+K3pi +0.6830 MyD0K3pi pi+ VSS; +Enddecay +CDecay MyD*-K3pi +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DsstarD_DsgammaD.dec b/BaBar_2014/B0B0bar_DsstarD_DsgammaD.dec new file mode 100644 index 0000000..4b52e0d --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarD_DsgammaD.dec @@ -0,0 +1,234 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*+ D*(2010)- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+ MyD- +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ MyD- SVS; +1.0000 MyD*- MyD_s+ SVS; +Enddecay +# +CDecay Myanti-B0 + +# +Decay MyD*+ +0.2500 MyD+ pi0 VSS; +0.7500 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +0.2500 MyD- pi0 VSS; +0.7500 MyD0 pi- VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +CDecay MyD_s*- +# +Decay MyD_s+ +0.5000 Myphi pi+ SVS; +1.0000 MyK0 K+ PHSP; +0.5000 MyK*0 K+ SVS; +1.0000 My2ndK*0 K+ SVS; +1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +1.0000 Myeta pi+ PHSP; +Enddecay +# +CDecay MyD_s- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK_S0 pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 K_S0 pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DsstarDm_Dsg_phipi_kpipi.dec b/BaBar_2014/B0B0bar_DsstarDm_Dsg_phipi_kpipi.dec new file mode 100644 index 0000000..e748b5c --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDm_Dsg_phipi_kpipi.dec @@ -0,0 +1,116 @@ +############################################################ +# # +# Exclusive D*D* decay.dec # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*+ D- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD+ MyD- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ MyD- SVS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +1.0000 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay MyD+ +CDecay Myanti-D0 +CDecay Myanti-B0 + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_KKpi_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_KKpi_Kpi.dec new file mode 100644 index 0000000..6429548 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_KKpi_Kpi.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*+ D*(2010)- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +0.4783 Myanti-K*0-Kp K+ SVS; +#1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +1.0000 K_S0 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_KKpipi0_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_KKpipi0_Kpi.dec new file mode 100644 index 0000000..d243e30 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_KKpipi0_Kpi.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*(2010)+ D*(2010)- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +#0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +#0.4783 Myanti-K*0-Kp K+ SVS; +#1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +#1.0000 K_S0 pi0 VSS; +1.0000 MyK0pp pi0 VSS; +#1.0000 MyK000 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpi0pi0_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpi0pi0_Kpi.dec new file mode 100644 index 0000000..a6b6388 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpi0pi0_Kpi.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*(2010)+ D*(2010)- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +#0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +1.0000 MyK000 K+ PHSP; +#0.4783 Myanti-K*0-Kp K+ SVS; +#1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +1.0000 K_S0 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpi0pi0pi0_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpi0pi0pi0_Kpi.dec new file mode 100644 index 0000000..fc0358c --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpi0pi0pi0_Kpi.dec @@ -0,0 +1,152 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*(2010)+ D*(2010)- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +#0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +#0.4783 Myanti-K*0-Kp K+ SVS; +1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +#1.0000 K_S0 pi0 VSS; +#1.0000 MyK0pp pi0 VSS; +1.0000 MyK000 pi0 VSS; +Enddecay +# + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpipi_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpipi_Kpi.dec new file mode 100644 index 0000000..7649680 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpipi_Kpi.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*(2010)+ D*(2010)- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +#0.5217 Myphi pi+ SVS; +1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +#0.4783 Myanti-K*0-Kp K+ SVS; +#1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +1.0000 K_S0 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpipipi0_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpipipi0_Kpi.dec new file mode 100644 index 0000000..8307ae2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_Kpipipi0_Kpi.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*+ D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +#0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +#0.4783 Myanti-K*0-Kp K+ SVS; +1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +#1.0000 K_S0 pi0 VSS; +1.0000 MyK0pp pi0 VSS; +#1.0000 MyK000 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_ggpi_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_ggpi_Kpi.dec new file mode 100644 index 0000000..943cd9b --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_ggpi_Kpi.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*+ D*(2010)- anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +#0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +#0.4783 Myanti-K*0-Kp K+ SVS; +#1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +#1.0000 K_S0 pi0 VSS; +1.0000 MyK0pp pi0 VSS; +#1.0000 MyK000 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_pi0pipipi_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_pi0pipipi_Kpi.dec new file mode 100644 index 0000000..4aab68b --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_DsgD0p_pi0pipipi_Kpi.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 D # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +#0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +#0.4783 Myanti-K*0-Kp K+ SVS; +#1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +#1.0000 K_S0 pi0 VSS; +1.0000 MyK0pp pi0 VSS; +#1.0000 MyK000 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_Dspi0D0p_KKpi_Kpi.dec b/BaBar_2014/B0B0bar_DsstarDstar_Dspi0D0p_KKpi_Kpi.dec new file mode 100644 index 0000000..061180e --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_Dspi0D0p_KKpi_Kpi.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec #2 # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> Ds*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD_s*+ +#1.0000 MyD_s+ gamma VSP_PWAVE; +#Analog to D* decay +1.0000 MyD_s+ pi0 VSS; +Enddecay +# +Decay MyD_s+ +0.5217 Myphi pi+ SVS; +#1.0000 MyK0pp K+ PHSP; +#1.0000 MyK000 K+ PHSP; +0.4783 Myanti-K*0-Kp K+ SVS; +#1.0000 Myanti-K*0-KSp K+ SVS; +# this is similar to the D0 decay +#1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0000 Myetagg pi+ PHSP; +#1.0000 Myetappp pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK0pp + 1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK000 + 1.0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0-Kp +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0-KSp +# assume same as for K- pi+ +1.0000 K_S0 pi0 VSS; +Enddecay +# + + +Decay Myetagg +1.0 gamma gamma PHSP; +Enddecay +# +Decay Myetappp +1.0 pi0 pi+ pi- ETA_DALITZ; +Enddecay + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay Myanti-D0 +CDecay Myanti-B0 +CDecay MyK*0-Kp +CDecay MyK*0-KSp + +End + diff --git a/BaBar_2014/B0B0bar_DsstarDstar_exclusive.dec b/BaBar_2014/B0B0bar_DsstarDstar_exclusive.dec new file mode 100644 index 0000000..37dd46e --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarDstar_exclusive.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +0.2500 MyD+ pi0 VSS; +0.7500 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +0.2500 MyD- pi0 VSS; +0.7500 MyD0 pi- VSS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +CDecay MyD_s*- +# +Decay MyD_s+ +0.5000 Myphi pi+ SVS; +1.0000 MyK0 K+ PHSP; +0.5000 MyK*0 K+ SVS; +1.0000 My2ndK*0 K+ SVS; +1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +1.0000 Myeta pi+ PHSP; +Enddecay +# +CDecay MyD_s- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK_S0 pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 K_S0 pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DsstarK_DsK0sK.dec b/BaBar_2014/B0B0bar_DsstarK_DsK0sK.dec new file mode 100644 index 0000000..59369de --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarK_DsK0sK.dec @@ -0,0 +1,63 @@ +############################################################ +# # +# Exclusive Dsstar*-K+ decay.dec # +# # +# Decay: B0 -> Ds*- K+ B0bar -> X # +# |-> Ds- gam # +# |-> K0 K- # +# |-> K0s # +# |-> K pi # +# + cc # +# # +# Author: Toyoko Orimoto 29/May/2002 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyK0 K0 +Alias MyK0bar anti-K0 +Alias MyK_S0 K_S0 +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- K+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*+ +# +Decay MyD_s- +1.0000 MyK0 K- PHSP; +Enddecay +CDecay MyD_s+ +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_DsstarK_DsKstarK.dec b/BaBar_2014/B0B0bar_DsstarK_DsKstarK.dec new file mode 100644 index 0000000..a6012a7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarK_DsKstarK.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Exclusive Dsstar*-K+ decay.dec # +# # +# Decay: B0 -> Ds*- K+ B0bar -> X # +# |-> Ds- gam # +# |-> K*0 K- # +# |-> K pi # +# + cc # +# # +# Author: Toyoko Orimoto 29/May/2002 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK*0 Myanti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- K+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*+ +# +Decay MyD_s- +1.0000 MyK*0 K- SVS; +Enddecay +CDecay MyD_s+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_DsstarK_Dsphipi.dec b/BaBar_2014/B0B0bar_DsstarK_Dsphipi.dec new file mode 100644 index 0000000..05800a7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarK_Dsphipi.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Exclusive Dsstar*-K+ decay.dec # +# # +# Decay: B0 -> Ds*- K+ B0bar -> X # +# |-> Ds- gam # +# |-> phipi # +# |-> K+K- # +# + cc # +# # +# Author: Toyoko Orimoto 29/May/2002 # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias Myphi phi +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- K+ SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*+ +# +Decay MyD_s- +1.0000 Myphi pi- SVS; +Enddecay +CDecay MyD_s+ +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_DsstarKstar_DsK0sK.dec b/BaBar_2014/B0B0bar_DsstarKstar_DsK0sK.dec new file mode 100644 index 0000000..964598d --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarKstar_DsK0sK.dec @@ -0,0 +1,71 @@ +############################################################ +# # +# Exclusive Dsstar*-K+ decay.dec # +# # +# Decay: B0 -> Ds*- K+ B0bar -> X # +# |-> Ds- gam # +# |-> K0 K- # +# |-> K0s # +# |-> K pi # +# + cc # +# # +# Author: Toyoko Orimoto 29/May/2002 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyK0 K0 +Alias MyK0bar anti-K0 +Alias MyK_S0 K_S0 +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyK*+ MyK*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*+ +# +Decay MyD_s- +1.0000 MyK0 K- PHSP; +Enddecay +CDecay MyD_s+ +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_DsstarKstar_DsKstarK.dec b/BaBar_2014/B0B0bar_DsstarKstar_DsKstarK.dec new file mode 100644 index 0000000..89e2e67 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarKstar_DsKstarK.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Exclusive Dsstar*-K+ decay.dec # +# # +# Decay: B0 -> Ds*- K*+ B0bar -> X # +# |-> Ds- gam # +# |-> K*0 K- # +# |-> K pi # +# + cc # +# # +# Author: Toyoko Orimoto 29/May/2002 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyK*+ MyK*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK*0 Myanti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*+ +# +Decay MyD_s- +1.0000 MyK*0 K- SVS; +Enddecay +CDecay MyD_s+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_DsstarKstar_Dsphipi.dec b/BaBar_2014/B0B0bar_DsstarKstar_Dsphipi.dec new file mode 100644 index 0000000..40823ff --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarKstar_Dsphipi.dec @@ -0,0 +1,63 @@ +############################################################ +# # +# Exclusive Dsstar*-K*+ decay.dec # +# # +# Decay: B0 -> Ds*- K*+ B0bar -> X # +# |-> Ds- gam # +# |-> phipi # +# |-> K+K- # +# + cc # +# # +# Author: Toyoko Orimoto 29/May/2002 # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias Myphi phi +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyK*+ MyK*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*+ +# +Decay MyD_s- +1.0000 Myphi pi- SVS; +Enddecay +CDecay MyD_s+ +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_DsstarKstar_K0pi_long.dec b/BaBar_2014/B0B0bar_DsstarKstar_K0pi_long.dec new file mode 100644 index 0000000..0f295b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarKstar_K0pi_long.dec @@ -0,0 +1,106 @@ +############################################################ +# # +# Ds*+ K*- decay.dec # +# # +# Decay: B0 -> Ds*- K*+ (longitud. polarization) B- -> X # +# | |->K0 pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Alex Merchant 7/May/2003 # +# Modified: A. Merchant 13/May/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK02 K0 +Alias MyK0bar2 anti-K0 +Alias MyK_S02 K_S0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK0bar2 MyK02 +ChargeConj MyK*+ MyK*- +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyK*+ +1.0000 MyK02 pi+ VSS; +Enddecay +CDecay MyK*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK02 +1.0000 MyK_S02 PHSP; +Enddecay +CDecay MyK0bar2 +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S02 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DsstarKstar_K0pi_tran.dec b/BaBar_2014/B0B0bar_DsstarKstar_K0pi_tran.dec new file mode 100644 index 0000000..e239f9b --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarKstar_K0pi_tran.dec @@ -0,0 +1,106 @@ +############################################################ +# # +# Ds*+ K*- decay.dec # +# # +# Decay: B0 -> Ds*- K*+ (transverse polarization) B- -> X # +# | |->K0 pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Alex Merchant 7/May/2003 # +# Modified: A. Merchant 13/May/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK02 K0 +Alias MyK0bar2 anti-K0 +Alias MyK_S02 K_S0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK0bar2 MyK02 +ChargeConj MyK*+ MyK*- +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 1.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyK*+ +1.0000 MyK02 pi+ VSS; +Enddecay +CDecay MyK*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK02 +1.0000 MyK_S02 PHSP; +Enddecay +CDecay MyK0bar2 +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S02 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DsstarKstar_recomodes_long.dec b/BaBar_2014/B0B0bar_DsstarKstar_recomodes_long.dec new file mode 100644 index 0000000..02178eb --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarKstar_recomodes_long.dec @@ -0,0 +1,108 @@ +############################################################ +# # +# Ds*+ K*- decay.dec # +# # +# Decay: B0 -> Ds*- K*+ (longitud. polarization) B- -> X # +# | |->K+ pi0 # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Alex Merchant 7/May/2003 # +# Modified: A. Merchant 26/May/2003 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK02 K0 +Alias MyK0bar2 anti-K0 +Alias MyK_S02 K_S0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK0bar2 MyK02 +ChargeConj MyK*+ MyK*- +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK*+ +0.6667 MyK02 pi+ VSS; +0.3333 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +Decay MyK02 +1.0000 MyK_S02 PHSP; +Enddecay +CDecay MyK0bar2 +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S02 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DsstarKstar_recomodes_tran.dec b/BaBar_2014/B0B0bar_DsstarKstar_recomodes_tran.dec new file mode 100644 index 0000000..13808c6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DsstarKstar_recomodes_tran.dec @@ -0,0 +1,108 @@ +############################################################ +# # +# Ds*+ K*- decay.dec # +# # +# Decay: B0 -> Ds*- K*+ (transverse polarization) B- -> X # +# | |->K+ pi0, K0 pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Alex Merchant 7/May/2003 # +# Modified: A. Merchant 26/May/2003 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK02 K0 +Alias MyK0bar2 anti-K0 +Alias MyK_S02 K_S0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK0bar2 MyK02 +ChargeConj MyK*+ MyK*- +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*- MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 1.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK*+ +0.6667 MyK02 pi+ VSS; +0.3333 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +Decay MyK02 +1.0000 MyK_S02 PHSP; +Enddecay +CDecay MyK0bar2 +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S02 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_D_KstarK_k2pi.dec b/BaBar_2014/B0B0bar_Dsstar_D_KstarK_k2pi.dec new file mode 100644 index 0000000..1288b30 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_D_KstarK_k2pi.dec @@ -0,0 +1,139 @@ +############################################################ +# # +# Exclusive Ds(*)D(*) decay.dec # +# # +# Decay: B0 -> Ds*+ D- B- ->X # +# | | # +# |->kstark |-> kpipi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_D_phipi_k2pi.dec b/BaBar_2014/B0B0bar_Dsstar_D_phipi_k2pi.dec new file mode 100644 index 0000000..17948cd --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_D_phipi_k2pi.dec @@ -0,0 +1,139 @@ +############################################################ +# # +# Exclusive Ds(*)D(*) decay.dec # +# # +# Decay: B0 -> Ds*+ D- B- ->X # +# | | # +# |->phipi |-> kpipi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_D_recomodes.dec b/BaBar_2014/B0B0bar_Dsstar_D_recomodes.dec new file mode 100644 index 0000000..ab29919 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_D_recomodes.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds*+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_k2pi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_k2pi.dec new file mode 100644 index 0000000..3f4b96b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_k2pi.dec @@ -0,0 +1,70 @@ +############################################################ +# # +# Decay: B0 -> D*s+ D*- B0bar -> X # +# | | # +# K*K kpipi # +# + cc # +# # +############################################################ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +ChargeConj MyB0 Myanti-B0 + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- + +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- + +ChargeConj MyK*0 Myanti-K*0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 + +Decay MyD*+ +0.3060 MyD+ pi0 VSS; +Enddecay +CDecay MyD*- + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 + +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_k3pi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_k3pi.dec new file mode 100755 index 0000000..d9999c5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_k3pi.dec @@ -0,0 +1,139 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# Ds*+D*- from B+ B- for SP4 # +# # +# Decay: B0 -> D*s+ D*- B- -> X # +# | | # +# K*K K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kpi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kpi.dec new file mode 100755 index 0000000..cb8f519 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kpi.dec @@ -0,0 +1,133 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# Ds*+D*- from B+ B- for SP4 # +# # +# Decay: B0 -> D*s+ D*- B- -> X # +# | | # +# K*K Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kpipi0.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kpipi0.dec new file mode 100755 index 0000000..fe91681 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kpipi0.dec @@ -0,0 +1,133 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# Ds*+D*- from B+ B- for SP4 # +# # +# Decay: B0 -> D*s+ D*- B- -> X # +# | | # +# K*K Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_ks2pi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_ks2pi.dec new file mode 100644 index 0000000..bd9a187 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_ks2pi.dec @@ -0,0 +1,83 @@ +############################################################ +# # +# Decay: B0 -> D*s+ D*- B0bar -> X # +# | | # +# K*K kspipi # +# + cc # +# # +############################################################ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias Myanti-K0 anti-K0 + +ChargeConj MyB0 Myanti-B0 + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- + +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s+ MyD_s- + +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0 Myanti-K0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 + +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD0 +1.000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +CDecay Myanti-D0 + +Decay MyK0 +1.000 MyK_S0 PHSP; +Enddecay +CDecay Myanti-K0 + +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 + +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kspi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kspi.dec new file mode 100644 index 0000000..78f4d37 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_KstarK_kspi.dec @@ -0,0 +1,83 @@ +############################################################ +# # +# Decay: B0 -> D*s+ D*- B0bar -> X # +# | | # +# K*K kspi # +# + cc # +# # +############################################################ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias Myanti-K0 anti-K0 + +ChargeConj MyB0 Myanti-B0 + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- + +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- + +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0 Myanti-K0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 + +Decay MyD*+ +0.3060 MyD+ pi0 VSS; +Enddecay +CDecay MyD*- + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD+ +1.000 Myanti-K0 pi+ PHSP; +Enddecay +CDecay MyD- + +Decay MyK0 +1.000 MyK_S0 PHSP; +Enddecay +CDecay Myanti-K0 + +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 + +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_k2pi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_k2pi.dec new file mode 100644 index 0000000..8dc0a5a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_k2pi.dec @@ -0,0 +1,66 @@ +############################################################ +# # +# Decay: B0 -> D*s+ D*- B0bar -> X # +# | | # +# phipi kpipi # +# + cc # +# # +############################################################ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias Myphi phi + +ChargeConj MyB0 Myanti-B0 + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- + +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 + +Decay MyD*+ +0.3060 MyD+ pi0 VSS; +Enddecay +CDecay MyD*- + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_k3pi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_k3pi.dec new file mode 100755 index 0000000..cf719bf --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_k3pi.dec @@ -0,0 +1,139 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# Ds*+D*- from B+ B- for SP4 # +# # +# Decay: B0 -> D*s+ D*- B- -> X # +# | | # +# phipi K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kpi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kpi.dec new file mode 100755 index 0000000..5c7c892 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kpi.dec @@ -0,0 +1,133 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# Ds*+D*- from B+ B- for SP4 # +# # +# Decay: B0 -> D*s+ D*- B- -> X # +# | | # +# phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kpipi0.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kpipi0.dec new file mode 100755 index 0000000..b04d5b3 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kpipi0.dec @@ -0,0 +1,133 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# Ds*+D*- from B+ B- for SP4 # +# # +# Decay: B0 -> D*s+ D*- B- -> X # +# | | # +# phipi Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_ks2pi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_ks2pi.dec new file mode 100644 index 0000000..332019b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_ks2pi.dec @@ -0,0 +1,80 @@ +############################################################ +# # +# Decay: B0 -> D*s+ D*- B0bar -> X # +# | | # +# phipi kspipi # +# + cc # +# # +############################################################ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias Myanti-K0 anti-K0 + +ChargeConj MyB0 Myanti-B0 + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- + +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s+ MyD_s- + +ChargeConj MyK0 Myanti-K0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 + +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD0 +1.000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +CDecay Myanti-D0 + +Decay MyK0 +1.000 MyK_S0 PHSP; +Enddecay +CDecay Myanti-K0 + +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kspi.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kspi.dec new file mode 100644 index 0000000..0fca173 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_phipi_kspi.dec @@ -0,0 +1,80 @@ +############################################################ +# # +# Decay: B0 -> D*s+ D*- B0bar -> X # +# | | # +# phipi kspi # +# + cc # +# # +############################################################ + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias Myanti-K0 anti-K0 + +ChargeConj MyB0 Myanti-B0 + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- + +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- + +ChargeConj MyK0 Myanti-K0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ MyD*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 + +Decay MyD*+ +0.3060 MyD+ pi0 VSS; +Enddecay +CDecay MyD*- + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD+ +1.000 Myanti-K0 pi+ PHSP; +Enddecay +CDecay MyD- + +Decay MyK0 +1.000 MyK_S0 PHSP; +Enddecay +CDecay Myanti-K0 + +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dsstar_Dstar_recomodes.dec b/BaBar_2014/B0B0bar_Dsstar_Dstar_recomodes.dec new file mode 100644 index 0000000..75994b8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_Dstar_recomodes.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds*+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_a1_rho0_pi_recomodes_long.dec b/BaBar_2014/B0B0bar_Dsstar_a1_rho0_pi_recomodes_long.dec new file mode 100644 index 0000000..563d486 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_a1_rho0_pi_recomodes_long.dec @@ -0,0 +1,101 @@ +############################################################ +# # +# Dsstar* a1 decay.dec # +# # +# Decay: B0 -> Ds*+ a1- (long. polarization) B0bar -> X # +# | |->rho0 pi- # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Mya_1- Mya_1+ +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ Mya_1- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0bar_Dsstar_a1_rho0_pi_recomodes_tran.dec b/BaBar_2014/B0B0bar_Dsstar_a1_rho0_pi_recomodes_tran.dec new file mode 100644 index 0000000..5f4ff5d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_a1_rho0_pi_recomodes_tran.dec @@ -0,0 +1,101 @@ +############################################################ +# # +# Dsstar* a1 decay.dec # +# # +# Decay: B0 -> Ds*+ a1- (transverse pol.) B0bar -> X # +# | |->rho0 pi- # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 11/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Mya_1- Mya_1+ +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ Mya_1- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0bar_Dsstar_pi_recomodes.dec b/BaBar_2014/B0B0bar_Dsstar_pi_recomodes.dec new file mode 100644 index 0000000..1bb053e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_pi_recomodes.dec @@ -0,0 +1,88 @@ +############################################################ +# # +# Exclusive Dsstar*pi- decay.dec # +# # +# Decay: B0 -> Ds*+ pi- B0bar -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ pi- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_Dsstar_rho_recomodes.dec b/BaBar_2014/B0B0bar_Dsstar_rho_recomodes.dec new file mode 100644 index 0000000..2e3678f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_rho_recomodes.dec @@ -0,0 +1,83 @@ +############################################################ +# # +# Exclusive Dsstar*rho- decay.dec # +# # +# Decay: B0 -> Ds*+ rho- B0bar -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstar_rho_recomodes_long.dec b/BaBar_2014/B0B0bar_Dsstar_rho_recomodes_long.dec new file mode 100644 index 0000000..b996164 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_rho_recomodes_long.dec @@ -0,0 +1,88 @@ +############################################################ +# # +# Exclusive Ds*rho- decay.dec # +# # +# Decay: B0 -> Ds*+ rho- (long. pol.) B0bar -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_Dsstar_rho_recomodes_tran.dec b/BaBar_2014/B0B0bar_Dsstar_rho_recomodes_tran.dec new file mode 100644 index 0000000..4bb0116 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstar_rho_recomodes_tran.dec @@ -0,0 +1,88 @@ +############################################################ +# # +# Exclusive Ds*rho- decay.dec # +# # +# Decay: B0 -> Ds*+ rho- (transverse pol.) B0bar -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ rho- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_Dsstarp_a0m.dec b/BaBar_2014/B0B0bar_Dsstarp_a0m.dec new file mode 100755 index 0000000..c966b93 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstarp_a0m.dec @@ -0,0 +1,113 @@ +######################################################################## +# # +# Decay: B0 -> Dsstar+ a0- B0bar -> X # +# | # +# |->Ds+ gamma # +# | # +# |-> 5 modes (see below) # +# + c.c. # +# # +# Author: V. Eyges 31/Jan/2004 # +# # +# Ds+ -> phi pi+, phi rho+, anti-K0 K+, anti-K*0 K+, K*+ anti-K0 # +# a0+(980) -> eta pi+ # +# eta -> gamma gamma, pi+ pi- pi0 # +# # +######################################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyD_s*+ MyD_s*- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK*+ MyK*- +ChargeConj MyK0bar MyK0 +# +ChargeConj Mya_0- Mya_0+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ Mya_0- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.1670 Myphi pi+ SVS; +0.3120 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1530 Myanti-K*0 K+ SVS; +0.2000 MyK*+ MyK0bar SVS; +0.1680 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay MyK*+ +0.6700 MyK0 pi+ VSS; +0.3300 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay Mya_0- +# +Decay Myeta +0.6070 gamma gamma PHSP; +0.3930 pi+ pi- pi0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Dsstarp_a2m.dec b/BaBar_2014/B0B0bar_Dsstarp_a2m.dec new file mode 100755 index 0000000..c2e2722 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstarp_a2m.dec @@ -0,0 +1,113 @@ +######################################################################## +# # +# Decay: B0 -> Dsstar+ a2- B0bar -> X # +# | # +# |->Ds+ gamma # +# | # +# |-> 5 modes (see below) # +# + c.c. # +# # +# Author: V. Eyges 31/Jan/2004 # +# # +# Ds+ -> phi pi+, phi rho+, anti-K0 K+, anti-K*0 K+, K*+ anti-K0 # +# a2+(1320)-> eta pi+ # +# eta -> gamma gamma, pi+ pi- pi0 # +# # +######################################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +Alias Mya_2+ a_2+ +Alias Mya_2- a_2- +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyD_s*+ MyD_s*- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK*+ MyK*- +ChargeConj MyK0bar MyK0 +# +ChargeConj Mya_2- Mya_2+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_2- MyD_s*+ PHSP; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.1670 Myphi pi+ SVS; +0.3120 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1530 Myanti-K*0 K+ SVS; +0.2000 MyK*+ MyK0bar SVS; +0.1680 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay MyK*+ +0.6700 MyK0 pi+ VSS; +0.3300 K+ pi0 VSS; +Enddecay +CDecay MyK*- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay Mya_2+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay Mya_2- +# +Decay Myeta +0.6070 gamma gamma PHSP; +0.3930 pi+ pi- pi0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Dsstarpi_DsetaPpi.dec b/BaBar_2014/B0B0bar_Dsstarpi_DsetaPpi.dec new file mode 100644 index 0000000..1ff4267 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstarpi_DsetaPpi.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Exclusive Ds pi decay.dec # +# # +# Decay: B0 -> Ds*+ pi- B0bar -> X # +# |-> Ds+ gamma # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 22/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ pi- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 MyetaP pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstarpi_Dsetapi.dec b/BaBar_2014/B0B0bar_Dsstarpi_Dsetapi.dec new file mode 100644 index 0000000..bd9ecbd --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstarpi_Dsetapi.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Exclusive Ds pi decay.dec # +# # +# Decay: B0 -> Ds*+ pi- B0bar -> X # +# |-> Ds+ gamma # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ pi- SVS; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_Dsstarpi_Dsgamma_phipi.dec b/BaBar_2014/B0B0bar_Dsstarpi_Dsgamma_phipi.dec new file mode 100644 index 0000000..77feee2 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstarpi_Dsgamma_phipi.dec @@ -0,0 +1,64 @@ +#################################################### +# # +# Exclusive Ds*-pi+ decay.dec #1 # +# # +# Ds*pi signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> Ds*- pi+, B0 -> X +c.c. # +# | # +# `-> Ds-gamma # +# | # +# `->Phipi- # +# | # +# `-> K- K+ # +# 01 May 01 # +# Cecilia Voena # +#################################################### +# + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*- D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD_s*- pi+ SVS; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ pi- SVS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_Dsstarrho_DsetaPpi.dec b/BaBar_2014/B0B0bar_Dsstarrho_DsetaPpi.dec new file mode 100644 index 0000000..2c4ddb5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstarrho_DsetaPpi.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Exclusive Ds* rho decay.dec # +# # +# Decay: B0 -> Ds*+ rho- B0bar -> X # +# |-> Ds+ gamma # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 22/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 MyetaP pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dsstarrho_Dsetapi.dec b/BaBar_2014/B0B0bar_Dsstarrho_Dsetapi.dec new file mode 100644 index 0000000..a183351 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dsstarrho_Dsetapi.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Exclusive Ds* rho decay.dec # +# # +# Decay: B0 -> Ds*+ rho- B0bar -> X # +# |-> Ds+ gamma # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0_KpiKpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0_KpiKpi.dec new file mode 100644 index 0000000..72344ef --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0_KpiKpi.dec @@ -0,0 +1,89 @@ +############################################################ +# # +# Exclusive D*D decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2007)0 D0 anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# Dstar0D0_D0_KpiKpi.dec # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 18/08/00 # +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +0.5000 MyD*0 Myanti-D0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 Myanti-D*0 MyD0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0 +#0.619 MyD0 pi0 VSS; +#0.381 MyD0 gamma VSP_PWAVE; +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay Myanti-B0 +# +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piK3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piK3pi.dec new file mode 100644 index 0000000..48df69e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piK3pi.dec @@ -0,0 +1,166 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKpi.dec new file mode 100644 index 0000000..bca9887 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKpi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKpipi0.dec new file mode 100644 index 0000000..4db7bbc --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKpipi0.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKspipi.dec new file mode 100644 index 0000000..ede7973 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_K3piKspipi.dec @@ -0,0 +1,171 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiK3pi.dec new file mode 100644 index 0000000..b3dccaf --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiK3pi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKpi.dec new file mode 100644 index 0000000..250ab7e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKpi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKpipi0.dec new file mode 100644 index 0000000..e360f4d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKpipi0.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKspipi.dec new file mode 100644 index 0000000..efec3d5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KpiKspipi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0K3pi.dec new file mode 100644 index 0000000..40e7dd1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0K3pi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpi.dec new file mode 100644 index 0000000..9fef779 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..10de808 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kpipi0.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kspipi.dec new file mode 100644 index 0000000..f5b9e1e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_Kpipi0Kspipi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiK3pi.dec new file mode 100644 index 0000000..7fedb06 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiK3pi.dec @@ -0,0 +1,171 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKpi.dec new file mode 100644 index 0000000..6d76786 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKpi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKpipi0.dec new file mode 100644 index 0000000..7af1cef --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKpipi0.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKspipi.dec new file mode 100644 index 0000000..5e653e1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0gD0_KspipiKspipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piK3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piK3pi.dec new file mode 100644 index 0000000..65d0d02 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piK3pi.dec @@ -0,0 +1,166 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKpi.dec new file mode 100644 index 0000000..aa43658 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKpi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKpipi0.dec new file mode 100644 index 0000000..e9ed79f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKpipi0.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKspipi.dec new file mode 100644 index 0000000..73f2063 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_K3piKspipi.dec @@ -0,0 +1,171 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiK3pi.dec new file mode 100644 index 0000000..05df472 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiK3pi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKpi.dec new file mode 100644 index 0000000..7f4064a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKpi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKpipi0.dec new file mode 100644 index 0000000..cdd3405 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKpipi0.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKspipi.dec new file mode 100644 index 0000000..f506284 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KpiKspipi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0K3pi.dec new file mode 100644 index 0000000..78dbb7f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0K3pi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpi.dec new file mode 100644 index 0000000..3150e25 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..1f791e0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kpipi0.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kspipi.dec new file mode 100644 index 0000000..3464f69 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_Kpipi0Kspipi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiK3pi.dec new file mode 100644 index 0000000..8271cb1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiK3pi.dec @@ -0,0 +1,171 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKpi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKpi.dec new file mode 100644 index 0000000..58d63c1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKpi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKpipi0.dec new file mode 100644 index 0000000..943d176 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKpipi0.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKspipi.dec new file mode 100644 index 0000000..059e05c --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0D0_D0pi0D0_KspipiKspipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*0_1 Myanti-D0_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_K3piK3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_K3piK3pi.dec new file mode 100644 index 0000000..8da5e63 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_K3piK3pi.dec @@ -0,0 +1,174 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_K3piKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_K3piKspipi.dec new file mode 100644 index 0000000..d46a3e1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_K3piKspipi.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiK3pi.dec new file mode 100644 index 0000000..5885b5e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiK3pi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpi.dec new file mode 100644 index 0000000..38bf862 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpipi0.dec new file mode 100644 index 0000000..3dffb90 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKspipi.dec new file mode 100644 index 0000000..37b7e8f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KpiKspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0K3pi.dec new file mode 100644 index 0000000..3181517 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0K3pi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..1abf78f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kspipi.dec new file mode 100644 index 0000000..1e25774 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_Kpipi0Kspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KspipiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KspipiKspipi.dec new file mode 100644 index 0000000..3849970 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0g_KspipiKspipi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*0_2 +1.0000 MyD0_2 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piK3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piK3pi.dec new file mode 100644 index 0000000..1e8b618 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piK3pi.dec @@ -0,0 +1,174 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpi.dec new file mode 100644 index 0000000..9163f0a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpipi0.dec new file mode 100644 index 0000000..a5ec216 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKpipi0.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKspipi.dec new file mode 100644 index 0000000..7359670 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_K3piKspipi.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiK3pi.dec new file mode 100644 index 0000000..f864eeb --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiK3pi.dec @@ -0,0 +1,150 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpi.dec new file mode 100644 index 0000000..e2ff995 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpipi0.dec new file mode 100644 index 0000000..cc8b9f0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKspipi.dec new file mode 100644 index 0000000..cabc2f7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KpiKspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0K3pi.dec new file mode 100644 index 0000000..e334b41 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0K3pi.dec @@ -0,0 +1,150 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpi.dec new file mode 100644 index 0000000..1eb2f31 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..573f2c1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kspipi.dec new file mode 100644 index 0000000..d9e561a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_Kpipi0Kspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiK3pi.dec new file mode 100644 index 0000000..824c146 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiK3pi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKpi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKpi.dec new file mode 100644 index 0000000..f22253a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKpi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKpipi0.dec new file mode 100644 index 0000000..a3423fe --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKpipi0.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKspipi.dec new file mode 100644 index 0000000..1c6c02f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0gD0pi0_KspipiKspipi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pD0p_KpiKpi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pD0p_KpiKpi.dec new file mode 100644 index 0000000..af6cf19 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pD0p_KpiKpi.dec @@ -0,0 +1,88 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2007)0 D*(2007)0 anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# Dstar0Dstar0_D0D0_KpiKpi.dec # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 18/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 MyD*0 Myanti-D*0 SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay Myanti-B0 +# +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_K3piK3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_K3piK3pi.dec new file mode 100644 index 0000000..53ccc9b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_K3piK3pi.dec @@ -0,0 +1,174 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_K3piKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_K3piKspipi.dec new file mode 100644 index 0000000..5ffaf0a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_K3piKspipi.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiK3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiK3pi.dec new file mode 100644 index 0000000..81c437e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiK3pi.dec @@ -0,0 +1,150 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpi.dec new file mode 100644 index 0000000..351c974 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpipi0.dec new file mode 100644 index 0000000..1cad98a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKspipi.dec new file mode 100644 index 0000000..bc4c640 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KpiKspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0K3pi.dec new file mode 100644 index 0000000..520a5b3 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0K3pi.dec @@ -0,0 +1,150 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..753b465 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kspipi.dec new file mode 100644 index 0000000..baadb5c --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_Kpipi0Kspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KspipiKspipi.dec b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KspipiKspipi.dec new file mode 100644 index 0000000..27c74d7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Dstar0_D0pi0D0pi0_KspipiKspipi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*0_1 Myanti-D*0_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*0_2 Myanti-D*0_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*0_2 +1.0000 MyD0_2 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPi.dec b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPi.dec new file mode 100644 index 0000000..3adbcf9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPi.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Exclusive Dstar0 Gamma rare decay # +# # +# B0 --> X # +# # +# B0bar --> Dstar0 Gamma # +# | # +# |-> D0 Gamma # +# | # +# |-> K- pi+ # +# # +# + cc # +# # +# Author J.M. Bauer 9/20/00 # +# JMB 7/24/01 with B0 mixing # +# # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +ChargeConj Myanti-B0 MyB0 +ChargeConj Myanti-D*0 MyD*0 +ChargeConj Myanti-D0 MyD0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0 MyD*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay MyD*0 +1.0 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay + +CDecay MyB0 +CDecay Myanti-D*0 +CDecay Myanti-D0 + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPiPi.dec b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPiPi.dec new file mode 100644 index 0000000..5e52a70 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPiPi.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Exclusive Dstar0 Gamma rare decay # +# # +# B0 --> X # +# # +# B0bar --> Dstar0 Gamma # +# | # +# |-> D0 Gamma # +# | # +# |-> K- pi+ pi0 # +# # +# + cc # +# # +# Author J.M. Bauer 9/20/00 # +# JMB 7/24/01 with B0 mixing # +# # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +ChargeConj Myanti-B0 MyB0 +ChargeConj Myanti-D*0 MyD*0 +ChargeConj Myanti-D0 MyD0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0 MyD*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay MyD*0 +1.0 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +1.0 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay MyB0 +CDecay Myanti-D*0 +CDecay Myanti-D0 + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPiPiPi.dec b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPiPiPi.dec new file mode 100644 index 0000000..6c63da6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Gamma_KPiPiPi.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Exclusive Dstar0 Gamma rare decay # +# # +# B0 --> X # +# # +# B0bar --> Dstar0 Gamma # +# | # +# |-> D0 Gamma # +# | # +# |-> K- pi+ pi- pi+ # +# # +# + cc # +# # +# Author J.M. Bauer 9/20/00 # +# JMB 7/24/01 with B0 mixing # +# # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +ChargeConj Myanti-B0 MyB0 +ChargeConj Myanti-D*0 MyD*0 +ChargeConj Myanti-D0 MyD0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0 MyD*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay MyD*0 +1.0 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +1.0 K- pi+ pi- pi+ PHSP; +Enddecay + +CDecay MyB0 +CDecay Myanti-D*0 +CDecay Myanti-D0 + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPi.dec b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPi.dec new file mode 100644 index 0000000..1c90219 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPi.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Exclusive Dstar0 Gamma rare decay # +# # +# B0 --> X # +# # +# B0bar --> Dstar0 Gamma # +# | # +# |-> D0 pi0 # +# | # +# |-> K- pi+ # +# # +# + cc # +# # +# Author J.M. Bauer 9/20/00 # +# JMB 7/24/01 with B0 mixing # +# # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +ChargeConj Myanti-B0 MyB0 +ChargeConj Myanti-D*0 MyD*0 +ChargeConj Myanti-D0 MyD0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0 MyD*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay MyD*0 +1.0 MyD0 pi0 VSS; +Enddecay + +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay + +CDecay MyB0 +CDecay Myanti-D*0 +CDecay Myanti-D0 + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPiPi.dec b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPiPi.dec new file mode 100644 index 0000000..918ef08 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPiPi.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Exclusive Dstar0 Gamma rare decay # +# # +# B0 --> X # +# # +# B0bar --> Dstar0 Gamma # +# | # +# |-> D0 pi0 # +# | # +# |-> K- pi+ pi0 # +# # +# + cc # +# # +# Author J.M. Bauer 9/20/00 # +# JMB 7/24/01 with B0 mixing # +# # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +ChargeConj Myanti-B0 MyB0 +ChargeConj Myanti-D*0 MyD*0 +ChargeConj Myanti-D0 MyD0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0 MyD*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay MyD*0 +1.0 MyD0 pi0 VSS; +Enddecay + +Decay MyD0 +1.0 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay MyB0 +CDecay Myanti-D*0 +CDecay Myanti-D0 + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPiPiPi.dec b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPiPiPi.dec new file mode 100644 index 0000000..e21891b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Gamma_D0Pi_KPiPiPi.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Exclusive Dstar0 Gamma rare decay # +# # +# B0 --> X # +# # +# B0bar --> Dstar0 Gamma # +# | # +# |-> D0 pi0 # +# | # +# |-> K- pi+ pi- pi+ # +# # +# + cc # +# # +# Author J.M. Bauer 9/20/00 # +# JMB 7/24/01 with B0 mixing # +# # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +ChargeConj Myanti-B0 MyB0 +ChargeConj Myanti-D*0 MyD*0 +ChargeConj Myanti-D0 MyD0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0 MyD*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay MyD*0 +1.0 MyD0 pi0 VSS; +Enddecay + +Decay MyD0 +1.0 K- pi+ pi- pi+ PHSP; +Enddecay + +CDecay MyB0 +CDecay Myanti-D*0 +CDecay Myanti-D0 + +End diff --git a/BaBar_2014/B0B0bar_Dstar0K3pi_D0bK3pi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0K3pi_D0bK3pi_K0S.dec new file mode 100644 index 0000000..b58482c --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0K3pi_D0bK3pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0k3pi MyD0Bk3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0K3pi_D0bKpi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0K3pi_D0bKpi_K0S.dec new file mode 100644 index 0000000..1839140 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0K3pi_D0bKpi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0k3pi MyD0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0K3pi_D0bKpipi0_K0S.dec b/BaBar_2014/B0B0bar_Dstar0K3pi_D0bKpipi0_K0S.dec new file mode 100644 index 0000000..724fc29 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0K3pi_D0bKpipi0_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0k3pi MyD0Bkpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0K3pi_Dstar0barKpi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0K3pi_Dstar0barKpi_K0S.dec new file mode 100644 index 0000000..9f848a5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0K3pi_Dstar0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D*0D*0barK0s anti-B0->X # +# D0 to k3pi # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0k3pi MyD*0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0KS.dec b/BaBar_2014/B0B0bar_Dstar0KS.dec new file mode 100644 index 0000000..baa26a6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0KS.dec @@ -0,0 +1,144 @@ +################################################### +# # +# B0 -> D0* Ks + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: S.Prell (UC San Diego) # +# S.Rahatlou (UC San Diego) # +# # +# Date: July 2002 # +# # +# Comment:The time evolution as given in Kayser & # +# London (PRD 61, 116013) is not # +# implemented, yet. This needs to be # +# added for time-dependent CP-violation # +# studies. # +# +# Shahram Rahatlou, 15 Dec 2003: +# 1/ change the D0 BR to be the same used in D0K*0 +# 2/ turn on mixing +# 3/ change the B0 BR to have 80% Vcb and 20% Vub +################################################### +# +Alias MyB0bar anti-B0 +Alias MyB0 B0 + +Alias MyDstar0 D*0 +Alias MyDstar0bar anti-D*0 + +Alias MyD0 D0 +Alias MyD0bar anti-D0 + +Alias MyKs K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias Myomega omega +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.200 MyDstar0 MyKs SVS; +0.800 MyDstar0bar MyKs SVS; +Enddecay +# +Decay MyB0bar +0.800 MyDstar0 MyKs SVS; +0.200 MyDstar0bar MyKs SVS; +Enddecay +# +Decay MyDstar0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyDstar0bar +0.6190 MyD0bar pi0 VSS; +0.3810 MyD0bar gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 MyK0bar pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0bar +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyK0bar +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0KS_Kpi.dec b/BaBar_2014/B0B0bar_Dstar0KS_Kpi.dec new file mode 100644 index 0000000..82a9edb --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0KS_Kpi.dec @@ -0,0 +1,75 @@ +################################################### +# # +# B0 -> D0* Ks + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: S.Prell (UC San Diego) # +# S.Rahatlou (UC San Diego) # +# # +# Date: July 2002 # +# # +# Comment:The time evolution as given in Kayser & # +# London (PRD 61, 116013) is not # +# implemented, yet. This needs to be # +# added for time-dependent CP-violation # +# studies. # +################################################### +# +Alias MyB0bar anti-B0 +Alias MyB0 B0 + +Alias MyDstar0 D*0 +Alias MyDstar0bar anti-D*0 + +Alias MyD0 D0 +Alias MyD0bar anti-D0 + +Alias MyKs K_S0 +# +Define dm 0.0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.500 MyDstar0 MyKs PHSP; +0.500 MyDstar0bar MyKs PHSP; +Enddecay +# +Decay MyB0bar +0.500 MyDstar0 MyKs PHSP; +0.500 MyDstar0bar MyKs PHSP; +Enddecay +# +Decay MyDstar0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyDstar0bar +0.6190 MyD0bar pi0 VSS; +0.3810 MyD0bar gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0828 K- pi+ PHSP; +#0.1620 K- pi+ pi+ pi- PHSP; +#0.3010 K- pi+ pi0 D_DALITZ; +#0.4540 K_S0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyD0bar +0.0828 K+ pi- PHSP; +#0.1620 K+ pi- pi- pi+ PHSP; +#0.3010 K+ pi- pi0 D_DALITZ; +#0.4540 K_S0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyKs +1.0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpi_D0CP.dec b/BaBar_2014/B0B0bar_Dstar0Kpi_D0CP.dec new file mode 100755 index 0000000..be17e82 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpi_D0CP.dec @@ -0,0 +1,199 @@ +########################################################################## +# # +# Decay file for: B0 --> Dstar0 K pi, Dstar0 --> D0pi0, D0gamma # +# D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.20698 MyB0 anti-B0 VSS_MIX dm; + 0.20698 Myanti-B0 B0 VSS_MIX dm; + 0.04301 Myanti-B0 anti-B0 VSS_MIX dm; + 0.04301 MyB0 B0 VSS_MIX dm; +Enddecay + + +################################################### +# B0(bar) -> Dstar0(bar) K+- pi-+ +################################################### + +Decay MyB0 + 0.0004 Myanti-D*0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 MyD*0 K- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta2 PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpi_D0NonCP.dec b/BaBar_2014/B0B0bar_Dstar0Kpi_D0NonCP.dec new file mode 100755 index 0000000..8205345 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpi_D0NonCP.dec @@ -0,0 +1,162 @@ +########################################################################## +# # +# Decay file for: B0 --> Dstar0 K pi, Dstar0 --> D0pi0, D0gamma # +# D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.20698 MyB0 anti-B0 VSS_MIX dm; + 0.20698 Myanti-B0 B0 VSS_MIX dm; + 0.04301 Myanti-B0 anti-B0 VSS_MIX dm; + 0.04301 MyB0 B0 VSS_MIX dm; +Enddecay + + +################################################### +# B0(bar) -> Dstar0(bar) K+- pi-+ +################################################### + +Decay MyB0 + 0.0004 Myanti-D*0 K+ pi- PHSP; +Enddecay + +Decay Myanti-B0 + 0.0004 MyD*0 K- pi+ PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpi_D0bK3pi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpi_D0bK3pi_K0S.dec new file mode 100644 index 0000000..056e03d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpi_D0bK3pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpi MyD0Bk3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpi_D0bKpi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpi_D0bKpi_K0S.dec new file mode 100644 index 0000000..5b45128 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpi_D0bKpi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpi MyD0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpi_D0bKpipi0_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpi_D0bKpipi0_K0S.dec new file mode 100644 index 0000000..1e26ee0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpi_D0bKpipi0_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpi MyD0Bkpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpi_Dstar0barKpi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpi_Dstar0barKpi_K0S.dec new file mode 100644 index 0000000..c227cdf --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpi_Dstar0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D*0D*0barK0s anti-B0->X # +# D0 to kpi # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpi MyD*0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bK3pi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bK3pi_K0S.dec new file mode 100644 index 0000000..9729207 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bK3pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpipi0 MyD0Bk3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bKpi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bKpi_K0S.dec new file mode 100644 index 0000000..7e9684e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bKpi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpipi0 MyD0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bKpipi0_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bKpipi0_K0S.dec new file mode 100644 index 0000000..1586f9e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpipi0_D0bKpipi0_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpipi0 MyD0Bkpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kpipi0_Dstar0barKpi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0Kpipi0_Dstar0barKpi_K0S.dec new file mode 100644 index 0000000..799008f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kpipi0_Dstar0barKpi_K0S.dec @@ -0,0 +1,194 @@ +####################################################### +# # +# Decay: B0 -> D*0D*0barK0s anti-B0->X # +# D0 to kpipi0 # +# D0bar to kpi # +# Author: Jean-Pierre Lees # +# Created: 02/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0kpipi0 MyD*0Bkpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kstar0.dec b/BaBar_2014/B0B0bar_Dstar0Kstar0.dec new file mode 100644 index 0000000..f96df6d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kstar0.dec @@ -0,0 +1,134 @@ +#################################################### +# Decay: B0 -> D*0bar K*0 # +# |-> breco c'tail |-> KS pi0 # +# |-> K- pi+ # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# B->DK, recommendation· +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# update: Ref. [B1]: +# +Decay MyB0 +1.0000 Myanti-D*0 MyK*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*0 Myanti-K*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kstar0_D0mpipimKK.dec b/BaBar_2014/B0B0bar_Dstar0Kstar0_D0mpipimKK.dec new file mode 100644 index 0000000..3c6fead --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kstar0_D0mpipimKK.dec @@ -0,0 +1,81 @@ +#################################################### +# Decay: B0 -> D*0 K*0 # +# |-> KS pi0 # +# D0 |-> K- pi+ # +# |-> K- K+ # +# pi- pi+ # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +# B->DK, recommendation· +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# update: Ref. [B1]: +# +Decay MyB0 +1.0000 Myanti-D*0 MyK*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*0 Myanti-K*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +0.742 K+ K- PHSP; +0.258 pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +0.742 K- K+ PHSP; +0.258 pi- pi+ PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kstar0_Kpi.dec b/BaBar_2014/B0B0bar_Dstar0Kstar0_Kpi.dec new file mode 100644 index 0000000..35304ec --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kstar0_Kpi.dec @@ -0,0 +1,80 @@ +################################################### +# # +# B0 -> D*0 K*0 + c.c. # +# | # +# | # +# ---> K+ pi- # +# # +# Author: S.Prell (UC San Diego) # +# S.Rahatlou (UC San Diego) # +# # +# Date: July 2002 # +# # +# Comment:The time evolution as given in Kayser & # +# London (PRD 61, 116013) is not # +# implemented, yet. This needs to be # +# added for time-dependent CP-violation # +# studies. # +################################################### +# +Alias MyB0bar anti-B0 +Alias MyB0 B0 + +Alias MyDstar0 D*0 +Alias MyDstar0bar anti-D*0 + +Alias MyD0 D0 +Alias MyD0bar anti-D0 + +Alias MyKstar0 K*0 +Alias MyKstar0bar anti-K*0 +# +Define dm 0.0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.500 MyDstar0 MyKstar0 PHSP; +0.500 MyDstar0bar MyKstar0 PHSP; +Enddecay +# +Decay MyB0bar +0.500 MyDstar0 MyKstar0bar PHSP; +0.500 MyDstar0bar MyKstar0bar PHSP; +Enddecay +# +Decay MyDstar0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyDstar0bar +0.6190 MyD0bar pi0 VSS; +0.3810 MyD0bar gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0828 K- pi+ PHSP; +#0.1620 K- pi+ pi+ pi- PHSP; +#0.3010 K- pi+ pi0 D_DALITZ; +#0.4540 K_S0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyD0bar +0.0828 K+ pi- PHSP; +#0.1620 K+ pi- pi- pi+ PHSP; +#0.3010 K+ pi- pi0 D_DALITZ; +#0.4540 K_S0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyKstar0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay MyKstar0bar +1.0 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Kstar0_Vub.dec b/BaBar_2014/B0B0bar_Dstar0Kstar0_Vub.dec new file mode 100644 index 0000000..7954557 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Kstar0_Vub.dec @@ -0,0 +1,140 @@ +#################################################### +# Decay: B0 -> D*0 K*0 # +# |-> breco c'tail |-> KS pi0 # +# |-> K- pi+ # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +# Modified by Sh. Rahatlou on 14 August 2003 # +# to implement the Vub decay amplitude # +# Note that usially B0 -> D*0bar X via Vcb # +# but here we have B0 -> D*0 X because # +# it is via Vub # +# +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# B->DK, recommendation· +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# update: Ref. [B1]: +# +Decay MyB0 +1.0000 MyD*0 MyK*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-D*0 Myanti-K*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0Pi0.dec b/BaBar_2014/B0B0bar_Dstar0Pi0.dec new file mode 100644 index 0000000..c956f9f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0Pi0.dec @@ -0,0 +1,61 @@ +################################################### +# # +# Dstar0 pi0 # +# (background for Dstar0 Gamma rare decay) # +# # +# B0 --> X # +# # +# B0bar --> Dstar0 pi0 # +# | # +# |-> D0 pi0 # +# |-> D0 Gamma # +# | # +# |-> K- pi+ # +# |-> K- pi+ pi0 # +# |-> K- pi+ pi- pi+ # +# # +# + cc # +# # +# Author J.M. Bauer 9/20/00 # +# # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +ChargeConj Myanti-B0 MyB0 +ChargeConj Myanti-D*0 MyD*0 +ChargeConj Myanti-D0 MyD0 + + +Decay Upsilon(4S) +0.5 Myanti-B0 B0 VSS_MIX dm; +0.5 MyB0 anti-B0 VSS_MIX dm; +Enddecay + +Decay Myanti-B0 +1.0 MyD*0 pi0 SVS; +Enddecay + +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.0383 K- pi+ PHSP; +0.139 K- pi+ pi0 D_DALITZ; +0.0749 K- pi+ pi- pi+ PHSP; +Enddecay + +CDecay MyB0 +CDecay Myanti-D*0 +CDecay Myanti-D0 + +End diff --git a/BaBar_2014/B0B0bar_Dstar0bK3pi_Dstar0K3pi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0bK3pi_Dstar0K3pi_K0S.dec new file mode 100644 index 0000000..7482052 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0bK3pi_Dstar0K3pi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0Bk3pi MyD*0k3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0K3pi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0K3pi_K0S.dec new file mode 100644 index 0000000..9aa0371 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0K3pi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0Bkpi MyD*0k3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0Kpi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0Kpi_K0S.dec new file mode 100644 index 0000000..dd59046 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0Kpi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0Bkpi MyD*0kpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0Kpipi0_K0S.dec b/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0Kpipi0_K0S.dec new file mode 100644 index 0000000..9c4a7b5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0bKpi_Dstar0Kpipi0_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0Bkpi MyD*0kpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0bKpipi0_Dstar0K3pi_K0S.dec b/BaBar_2014/B0B0bar_Dstar0bKpipi0_Dstar0K3pi_K0S.dec new file mode 100644 index 0000000..c9ba7f2 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0bKpipi0_Dstar0K3pi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0Bkpipi0 MyD*0k3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0bKpipi0_Dstar0Kpipi0_K0S.dec b/BaBar_2014/B0B0bar_Dstar0bKpipi0_Dstar0Kpipi0_K0S.dec new file mode 100644 index 0000000..c2537f5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0bKpipi0_Dstar0Kpipi0_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*0Bkpipi0 MyD*0kpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K2pi.dec b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K2pi.dec new file mode 100644 index 0000000..9de6116 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K2pi.dec @@ -0,0 +1,48 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2007)0bar p anti-p, anti-B0 -> X # +# +-> D0bar pi0 # +# +-> K+ pi- pi0 # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-D*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K3pi.dec b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K3pi.dec new file mode 100644 index 0000000..f6a5dc5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_K3pi.dec @@ -0,0 +1,48 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2007)0bar p anti-p, anti-B0 -> X # +# +-> D0bar pi0 # +# +-> K+ pi- pi- pi+ # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-D*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_Kpi.dec b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_Kpi.dec new file mode 100644 index 0000000..ff4bd75 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_Kpi.dec @@ -0,0 +1,48 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2007)0bar p anti-p, anti-B0 -> X # +# +-> D0bar pi0 # +# +-> K- pi+ # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-D*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_Ks2pi.dec b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_Ks2pi.dec new file mode 100644 index 0000000..447677e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar0ppbar_D0pi0_Ks2pi.dec @@ -0,0 +1,64 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2007)0bar p anti-p, anti-B0 -> X # +# +-> D0bar pi0 # +# -> K0 pi+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-D*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*0 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# // resonance structure in Dalitz modelled +Decay Myanti-D0 +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.0000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKKpi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKKpi.dec new file mode 100644 index 0000000..b8583dd --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKKpi.dec @@ -0,0 +1,138 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD-_1 D- +Alias MyD+_1 D+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD-_1 MyD+_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +CDecay MyD*-_1 +# + +Decay MyD0 +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# + +# +Decay MyD-_1 +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# +CDecay MyD+_1 +# + +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + +# + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKpipi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKpipi.dec new file mode 100644 index 0000000..2dfc6d8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKpipi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKspi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKspi.dec new file mode 100644 index 0000000..4392b92 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_K3piKspi.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKKpi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKKpi.dec new file mode 100644 index 0000000..68cabe0 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKKpi.dec @@ -0,0 +1,125 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD-_1 D- +Alias MyD+_1 D+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD-_1 MyD+_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +CDecay MyD*-_1 +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +CDecay Myanti-D0 +# + +# +Decay MyD-_1 +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# +CDecay MyD+_1 +# + +# + + + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + + +End + diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKpipi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKpipi.dec new file mode 100644 index 0000000..2f163e7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKspi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKspi.dec new file mode 100644 index 0000000..76efadb --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_KpiKspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0KKpi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0KKpi.dec new file mode 100644 index 0000000..d264262 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0KKpi.dec @@ -0,0 +1,125 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD-_1 D- +Alias MyD+_1 D+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD-_1 MyD+_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +CDecay MyD*-_1 +# + +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +CDecay Myanti-D0 +# + +# +Decay MyD-_1 +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# +CDecay MyD+_1 +# + +# + + + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + + +End + diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0Kpipi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0Kpipi.dec new file mode 100644 index 0000000..81ef5e8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0Kpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0Kspi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0Kspi.dec new file mode 100644 index 0000000..ff2473c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_Kpipi0Kspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKKpi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKKpi.dec new file mode 100644 index 0000000..faf6c95 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKKpi.dec @@ -0,0 +1,191 @@ +############################################################ +# # +# Exclusive D*D decay.dec #2 # +# # +# D*D . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Albert 07/20/00 # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +ChargeConj MyD*+ MyD*- +ChargeConj MyD- MyD+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5000 MyD*+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*- MyD+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +0.5000 MyD*+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*- MyD+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +Enddecay +# +Decay MyD- +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKpipi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKpipi.dec new file mode 100644 index 0000000..07f972a --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKpipi.dec @@ -0,0 +1,185 @@ +############################################################ +# # +# Exclusive D*D decay.dec #2 # +# # +# D*D . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Albert 07/20/00 # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +ChargeConj MyD*+ MyD*- +ChargeConj MyD- MyD+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5000 MyD*+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*- MyD+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +0.5000 MyD*+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*- MyD+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKspi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKspi.dec new file mode 100644 index 0000000..4e2d7e6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_Ks3piKspi.dec @@ -0,0 +1,185 @@ +############################################################ +# # +# Exclusive D*D decay.dec #2 # +# # +# D*D . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Albert 07/20/00 # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +ChargeConj MyD*+ MyD*- +ChargeConj MyD- MyD+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.5000 MyD*+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*- MyD+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +0.5000 MyD*+ MyD- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*- MyD+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKKpi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKKpi.dec new file mode 100644 index 0000000..5246467 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKKpi.dec @@ -0,0 +1,128 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD-_1 D- +Alias MyD+_1 D+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD-_1 MyD+_1 +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD-_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_1 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +CDecay MyD*-_1 +# + +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +CDecay Myanti-D0 +# + +# +Decay MyD-_1 +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# +CDecay MyD+_1 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKpipi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKpipi.dec new file mode 100644 index 0000000..ad0c8c7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKpipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKspi.dec b/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKspi.dec new file mode 100644 index 0000000..f421245 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_D0Dch_KspipiKspi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_K3piKstar0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_K3piKstar0K.dec new file mode 100644 index 0000000..ea4c7d2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_K3piKstar0K.dec @@ -0,0 +1,166 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_K3piphipi.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_K3piphipi.dec new file mode 100644 index 0000000..ad92648 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_K3piphipi.dec @@ -0,0 +1,162 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_KpiKstar0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_KpiKstar0K.dec new file mode 100644 index 0000000..bd8c123 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_KpiKstar0K.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpiphipi.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpiphipi.dec new file mode 100644 index 0000000..5edc9d0 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpiphipi.dec @@ -0,0 +1,137 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpipi0Kstar0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpipi0Kstar0K.dec new file mode 100644 index 0000000..69e030d --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpipi0Kstar0K.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpipi0phipi.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpipi0phipi.dec new file mode 100644 index 0000000..b86167b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kpipi0phipi.dec @@ -0,0 +1,137 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_KspipiKstar0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_KspipiKstar0K.dec new file mode 100644 index 0000000..630269c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_KspipiKstar0K.dec @@ -0,0 +1,152 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kspipiphipi.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kspipiphipi.dec new file mode 100644 index 0000000..5bbe6f2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piD_sch_Kspipiphipi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_K3piKs0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_K3piKs0K.dec new file mode 100644 index 0000000..370700b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_K3piKs0K.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_KpiKs0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_KpiKs0K.dec new file mode 100644 index 0000000..ddf7ed6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_KpiKs0K.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_Kpipi0Ks0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_Kpipi0Ks0K.dec new file mode 100644 index 0000000..b31bee8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_Kpipi0Ks0K.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_KspipiKs0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_KspipiKs0K.dec new file mode 100644 index 0000000..5259eaa --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_D0piK0K_KspipiKs0K.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_KpipiKstar0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_KpipiKstar0K.dec new file mode 100644 index 0000000..04ffacd --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_KpipiKstar0K.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_Kpipiphipi.dec b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_Kpipiphipi.dec new file mode 100644 index 0000000..d9570a4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_Kpipiphipi.dec @@ -0,0 +1,137 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_KspiKstar0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_KspiKstar0K.dec new file mode 100644 index 0000000..b100dbd --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_KspiKstar0K.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_Kspiphipi.dec b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_Kspiphipi.dec new file mode 100644 index 0000000..7b11b68 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0D_sch_Kspiphipi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0K0K_KpipiKs0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0K0K_KpipiKs0K.dec new file mode 100644 index 0000000..8e60875 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0K0K_KpipiKs0K.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0K0K_KspiKs0K.dec b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0K0K_KspiKs0K.dec new file mode 100644 index 0000000..706cd5a --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarD_sch_Dchpi0K0K_KspiKs0K.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.000 MyD*-_1 MyD_s+_2 SVS ; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDbarK.dec b/BaBar_2014/B0B0bar_DstarDbarK.dec new file mode 100644 index 0000000..f2ad284 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDbarK.dec @@ -0,0 +1,50 @@ +############################################################# +# # +# Decay: B0 -> D*(2010)- D0 K+, anti-B0 -> X # +# |-> D0B pi- |-> K- Pi+ # +# |-> K+ pi- # +# # +# # +# Author: M. H. Schune # +# Created: 26/Jan/99 # +# Modifification for dm: G.London 10/Feb/99 # +############################################################# +# +# +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD0 K+ PHSP; +Enddecay +# +Decay MyB0B +1.0000 MyD*+ MyD0B K- PHSP; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_K3piKpipi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_K3piKpipi.dec new file mode 100644 index 0000000..2dfc6d8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_K3piKpipi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_K3piKspi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_K3piKspi.dec new file mode 100644 index 0000000..4392b92 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_K3piKspi.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_KpiKpipi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KpiKpipi.dec new file mode 100644 index 0000000..2f163e7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KpiKpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_KpiKspi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KpiKspi.dec new file mode 100644 index 0000000..76efadb --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KpiKspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_Kpipi0Kpipi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_Kpipi0Kpipi.dec new file mode 100644 index 0000000..81ef5e8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_Kpipi0Kpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_Kpipi0Kspi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_Kpipi0Kspi.dec new file mode 100644 index 0000000..ff2473c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_Kpipi0Kspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_KspipiKpipi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KspipiKpipi.dec new file mode 100644 index 0000000..ad0c8c7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KspipiKpipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_D0piDch_KspipiKspi.dec b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KspipiKspi.dec new file mode 100644 index 0000000..f421245 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_D0piDch_KspipiKspi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KpipiKpipi.dec b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KpipiKpipi.dec new file mode 100644 index 0000000..c0599e9 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KpipiKpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KpipiKspi.dec b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KpipiKspi.dec new file mode 100644 index 0000000..6e27c5b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KpipiKspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KspiKpipi.dec b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KspiKpipi.dec new file mode 100644 index 0000000..a2fd2fd --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KspiKpipi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KspiKspi.dec b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KspiKspi.dec new file mode 100644 index 0000000..541e3ee --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDch_Dchpi0Dch_KspiKspi.dec @@ -0,0 +1,150 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD-_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.5000 MyD*-_1 MyD+_2 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDs_D0_kpi_phipi.dec b/BaBar_2014/B0B0bar_DstarDs_D0_kpi_phipi.dec new file mode 100644 index 0000000..e7f9ba3 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDs_D0_kpi_phipi.dec @@ -0,0 +1,114 @@ +############################################################ +# # +# Exclusive D*Ds decay.dec # +# # +# Ds*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- Ds+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +Alias MyK0pp K_S0 +Alias MyK000 K_S0 + + +Alias Myanti-K*0-Kp anti-K*0 +Alias MyK*0-Kp K*0 + +Alias Myanti-K*0-KSp anti-K*0 +Alias MyK*0-KSp K*0 + +Alias Myetagg eta +Alias Myetappp eta + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD+ MyD- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyK*0-Kp Myanti-K*0-Kp +ChargeConj MyK*0-KSp Myanti-K*0-KSp + +########################## + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay + +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +Decay MyD_s+ +1.0000 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# + +CDecay MyD*- +CDecay MyD_s*- +CDecay MyD_s- +CDecay MyD- +CDecay Myanti-D0 +CDecay Myanti-B0 + +End + diff --git a/BaBar_2014/B0B0bar_DstarDs_DstoX.dec b/BaBar_2014/B0B0bar_DstarDs_DstoX.dec new file mode 100644 index 0000000..1d5132f --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDs_DstoX.dec @@ -0,0 +1,203 @@ +############################################################ +# # +# # +# # +# Decay: B0 -> D*(2010)- Ds+ + anti-B0 -> X # +# | | # +# |->recon- |-> X # +# structible # +# modes # +# + cc # +# # +# Author: R. Faccini 06-07-02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- D_s+ SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ D_s- SVS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK0bar pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 MyK0bar pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_K3piK3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_K3piK3pi.dec new file mode 100644 index 0000000..7f9955b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_K3piK3pi.dec @@ -0,0 +1,174 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_K3piKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_K3piKs3pi.dec new file mode 100644 index 0000000..ec35185 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_K3piKs3pi.dec @@ -0,0 +1,223 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 MyK*0B pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +0.1666 K+ pi- pi- D_DALITZ; +0.1666 MyK0 pi- pi0 D_DALITZ; +0.1666 K_S0 pi- PHSP; +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiK3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiK3pi.dec new file mode 100644 index 0000000..3c5a065 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiK3pi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi.dec new file mode 100644 index 0000000..501e4c1 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_001.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_001.dec new file mode 100644 index 0000000..4bfaae2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_001.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 03/13/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD*+ MyD*- +# + +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.00 0.0 0.00 0.0 1.00 0.0; +Enddecay +# +CDecay Myanti-B0 + +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +CDecay MyD*- + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +End + + + diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_010.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_010.dec new file mode 100644 index 0000000..381b51d --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_010.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 03/13/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD*+ MyD*- +# + +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.00 0.0 1.00 0.0 0.00 0.0; +Enddecay +# +CDecay Myanti-B0 + +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +CDecay MyD*- + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +End + + + diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_100.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_100.dec new file mode 100644 index 0000000..7fa14cc --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_100.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 03/13/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD*+ MyD*- +# + +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 1.00 0.0 0.00 0.0 0.00 0.0; +Enddecay +# +CDecay Myanti-B0 + +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +CDecay MyD*- + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +End + + + diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_111.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_111.dec new file mode 100644 index 0000000..83624d8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_111.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 03/13/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD*+ MyD*- +# + +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 1.00 0.0 1.00 0.0 1.00 0.0; +Enddecay +# +CDecay Myanti-B0 + +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +CDecay MyD*- + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +End + + + diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_1sqrt21.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_1sqrt21.dec new file mode 100644 index 0000000..21e3243 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpi_1sqrt21.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 03/13/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD*+ MyD*- +# + +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 1.00 2.62 1.41421 0.785 1.00 0.0; +Enddecay +# +CDecay Myanti-B0 + +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +CDecay MyD*- + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +End + + + diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpipi0.dec new file mode 100644 index 0000000..9d489c6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKs3pi.dec new file mode 100644 index 0000000..e178328 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKs3pi.dec @@ -0,0 +1,217 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +0.1666 K+ pi- pi- D_DALITZ; +0.1666 MyK0 pi- pi0 D_DALITZ; +0.1666 K_S0 pi- PHSP; +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKspipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKspipi.dec new file mode 100644 index 0000000..8a29c58 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KpiKspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0K3pi.dec new file mode 100644 index 0000000..260f197 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0K3pi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..9bd0f05 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Kpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Ks3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Ks3pi.dec new file mode 100644 index 0000000..f13369c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Ks3pi.dec @@ -0,0 +1,217 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +0.1666 K+ pi- pi- D_DALITZ; +0.1666 MyK0 pi- pi0 D_DALITZ; +0.1666 K_S0 pi- PHSP; +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Kspipi.dec new file mode 100644 index 0000000..1a21585 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Kpipi0Kspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_Ks3piKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Ks3piKs3pi.dec new file mode 100644 index 0000000..db42055 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_Ks3piKs3pi.dec @@ -0,0 +1,224 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +0.1666 K+ pi- pi- D_DALITZ; +0.1666 MyK0 pi- pi0 D_DALITZ; +0.1666 K_S0 pi- PHSP; +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiK3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiK3pi.dec new file mode 100644 index 0000000..50622d8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiK3pi.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiKs3pi.dec new file mode 100644 index 0000000..f2e1360 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiKs3pi.dec @@ -0,0 +1,217 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +0.1666 K+ pi- pi- D_DALITZ; +0.1666 MyK0 pi- pi0 D_DALITZ; +0.1666 K_S0 pi- PHSP; +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiKspipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiKspipi.dec new file mode 100644 index 0000000..b3064fa --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_KspipiKspipi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0D0_exclusive.dec b/BaBar_2014/B0B0bar_DstarDstar_D0D0_exclusive.dec new file mode 100644 index 0000000..eabb306 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0D0_exclusive.dec @@ -0,0 +1,208 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK0bar pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 MyK0bar pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKKpi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKKpi.dec new file mode 100644 index 0000000..29a3b2b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKKpi.dec @@ -0,0 +1,151 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# + +Decay MyD0 +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0 + +# +Decay MyD- +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# + +CDecay MyD+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + + +End + diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKKpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKKpipi0.dec new file mode 100644 index 0000000..aaedfce --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKKpipi0.dec @@ -0,0 +1,220 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 MyK*0B pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKpipi.dec new file mode 100644 index 0000000..c89e763 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKpipi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKs3pi.dec new file mode 100644 index 0000000..0c95ad0 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKs3pi.dec @@ -0,0 +1,222 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 MyK*0B pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKspi.dec new file mode 100644 index 0000000..63d0e1b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKspi.dec @@ -0,0 +1,180 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKspipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKspipi0.dec new file mode 100644 index 0000000..88f232a --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_K3piKspipi0.dec @@ -0,0 +1,217 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 MyK*0B pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 MyK0 pi- pi0 D_DALITZ; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKKpi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKKpi.dec new file mode 100644 index 0000000..d9b47c3 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKKpi.dec @@ -0,0 +1,122 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +Decay MyD- +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# + +CDecay MyD+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKKpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKKpipi0.dec new file mode 100644 index 0000000..2044197 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKKpipi0.dec @@ -0,0 +1,214 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi.dec new file mode 100644 index 0000000..36bfef9 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_001.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_001.dec new file mode 100644 index 0000000..b1c1805 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_001.dec @@ -0,0 +1,114 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 + +# +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 0.00 0.0 0.00 0.0 1.00 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 0.00 0.0 0.00 0.0 1.00 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# + +CDecay MyD+ + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_010.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_010.dec new file mode 100644 index 0000000..2898aa7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_010.dec @@ -0,0 +1,114 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 + +# +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 0.00 0.0 1.00 0.0 0.00 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 0.00 0.0 1.00 0.0 0.00 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# + +CDecay MyD+ + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_100.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_100.dec new file mode 100644 index 0000000..e2fead8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_100.dec @@ -0,0 +1,114 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 + +# +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 1.00 0.0 0.00 0.0 0.00 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 1.00 0.0 0.00 0.0 0.00 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# + +CDecay MyD+ + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_111.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_111.dec new file mode 100644 index 0000000..7c17dc3 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_111.dec @@ -0,0 +1,114 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 + +# +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 1.00 0.0 1.00 0.0 1.00 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 1.00 0.0 1.00 0.0 1.00 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# + +CDecay MyD+ + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_1sqrt21.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_1sqrt21.dec new file mode 100644 index 0000000..6f51fbf --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKpipi_1sqrt21.dec @@ -0,0 +1,114 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 Myanti-B0 B0 VSS_MIX dm; +0.0850 Myanti-B0 anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 + +# +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 1.00 2.62 1.41421 0.785 1.00 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 1.00 2.62 1.41421 0.785 1.00 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0 + +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# + +CDecay MyD+ + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKs3pi.dec new file mode 100644 index 0000000..3215e8c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKs3pi.dec @@ -0,0 +1,216 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKspi.dec new file mode 100644 index 0000000..9c797c7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKspi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKspipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKspipi0.dec new file mode 100644 index 0000000..7e433b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KpiKspipi0.dec @@ -0,0 +1,212 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +0.5000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 MyK0 pi- pi0 D_DALITZ; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0KKpi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0KKpi.dec new file mode 100644 index 0000000..f58b1a8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0KKpi.dec @@ -0,0 +1,126 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0 + +# +Decay MyD- +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# + +CDecay MyD+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 + + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0KKpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0KKpipi0.dec new file mode 100644 index 0000000..ae9e1c5 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0KKpipi0.dec @@ -0,0 +1,214 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kpipi.dec new file mode 100644 index 0000000..04da980 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kpipi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Ks3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Ks3pi.dec new file mode 100644 index 0000000..b607d64 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Ks3pi.dec @@ -0,0 +1,216 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kspi.dec new file mode 100644 index 0000000..2c5c137 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kspi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kspipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kspipi0.dec new file mode 100644 index 0000000..c5f560b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Kpipi0Kspipi0.dec @@ -0,0 +1,211 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 MyK0 pi- pi0 D_DALITZ; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKKpi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKKpi.dec new file mode 100644 index 0000000..e956280 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKKpi.dec @@ -0,0 +1,221 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K+ K- pi- (total 0.0088) +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKKpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKKpipi0.dec new file mode 100644 index 0000000..9f11c02 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKKpipi0.dec @@ -0,0 +1,221 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKpipi.dec new file mode 100644 index 0000000..ac748ac --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKpipi.dec @@ -0,0 +1,218 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +0.5000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKs3pi.dec new file mode 100644 index 0000000..c7d19fd --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKs3pi.dec @@ -0,0 +1,223 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKspi.dec new file mode 100644 index 0000000..27b4948 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKspi.dec @@ -0,0 +1,218 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKspipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKspipi0.dec new file mode 100644 index 0000000..474a94d --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_Ks3piKspipi0.dec @@ -0,0 +1,218 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1- pi+ SVS; +0.0100 My2ndK*0B pi+ pi- PHSP; +0.0431 K_S0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 MyK0 pi- pi0 D_DALITZ; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKKpi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKKpi.dec new file mode 100644 index 0000000..4c895c0 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKKpi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# J. Schieck 10/03/01 (fixes) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 + +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +ChargeConj Myphi Myphi +# + +Decay MyB0 +0.5000 MyD*+_1 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD*+_1 +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*-_1 +1.0000 MyD- pi0 VSS; +Enddecay + +Decay MyD*+_2 +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*-_2 +1.0000 Myanti-D0 pi- VSS; +Enddecay +# + +Decay Myanti-D0 +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay + +CDecay MyD0 + +# +Decay MyD- +0.0492 Myphi pi- SVS; +0.0455 MyK*0 K- SVS; +0.0720 K+ K- pi- PHSP; +Enddecay +# +CDecay MyD+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKKpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKKpipi0.dec new file mode 100644 index 0000000..c6802ae --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKKpipi0.dec @@ -0,0 +1,214 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K+ K- pi- pi0 (total 0.0260) +0.0449 Myphi pi- pi0 PHSP; +0.0256 Myphi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K+ K- pi- pi0 PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKpipi.dec new file mode 100644 index 0000000..9250040 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKpipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKs3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKs3pi.dec new file mode 100644 index 0000000..2f77d46 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKs3pi.dec @@ -0,0 +1,216 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +# K0s pi- pi- pi+ (total 0.0350) +0.0529 Mya_1- K_S0 SVS; +0.0290 MyK_10B pi- SVS; +0.0186 MyK*+ pi- pi- PHSP; +0.0557 rho0 K_S0 pi- PHSP; +0.0105 K_S0 pi- pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKspi.dec new file mode 100644 index 0000000..f5e8048 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKspi.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKspipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKspipi0.dec new file mode 100644 index 0000000..db91f15 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_KspipiKspipi0.dec @@ -0,0 +1,212 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- MyD*+ SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +0.5000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.2000 K+ pi- PHSP; +0.2000 K+ pi- pi0 D_DALITZ; +0.2000 MyK0 pi- pi+ D_DALITZ; +# K- 3pi (total 0.0761) +0.0933 Mya_1- K+ SVS; +0.0255 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1+ pi- SVS; +0.0276 MyK*0 pi- pi+ PHSP; +0.0142 K+ pi- rho0 PHSP; +0.0339 K+ pi- pi- pi+ PHSP; +# K0s 3pi (total 0.0500) +0.0032 K_S0 Myeta PHSP; +0.0387 Myomega K_S0 SVS; +0.0838 MyK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0104 My2ndK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0108 My2ndK_1+ pi- SVS; +0.0100 My2ndK*0 pi- pi+ PHSP; +0.0431 K_S0 pi- pi+ pi0 PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay My2ndK*0B +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay My2ndK*0 +1.0000 K_S0 pi0 VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndK*0B pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 Myanti-K0 pi+ pi0 D_DALITZ; +0.1666 K_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 K_S0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 MyK0 pi- pi0 D_DALITZ; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 K_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 K_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0Dch_exclusive.dec b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_exclusive.dec new file mode 100644 index 0000000..39a9707 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0Dch_exclusive.dec @@ -0,0 +1,206 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK0bar pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 MyK0bar pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_K3piK3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_K3piK3pi.dec new file mode 100644 index 0000000..7f9955b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_K3piK3pi.dec @@ -0,0 +1,174 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_K3piKspipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_K3piKspipi.dec new file mode 100644 index 0000000..50622d8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_K3piKspipi.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiK3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiK3pi.dec new file mode 100644 index 0000000..3c5a065 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiK3pi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKpi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKpi.dec new file mode 100644 index 0000000..501e4c1 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKpi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKpipi0.dec new file mode 100644 index 0000000..9d489c6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKspipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKspipi.dec new file mode 100644 index 0000000..8a29c58 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KpiKspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0K3pi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0K3pi.dec new file mode 100644 index 0000000..260f197 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0K3pi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0Kpipi0.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..9bd0f05 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0Kpipi0.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0Kspipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0Kspipi.dec new file mode 100644 index 0000000..1a21585 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_Kpipi0Kspipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KspipiKspipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KspipiKspipi.dec new file mode 100644 index 0000000..b3064fa --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piD0pi_KspipiKspipi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_K3piKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_K3piKpipi.dec new file mode 100644 index 0000000..c89e763 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_K3piKpipi.dec @@ -0,0 +1,168 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_K3piKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_K3piKspi.dec new file mode 100644 index 0000000..63d0e1b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_K3piKspi.dec @@ -0,0 +1,180 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KpiKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KpiKpipi.dec new file mode 100644 index 0000000..36bfef9 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KpiKpipi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KpiKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KpiKspi.dec new file mode 100644 index 0000000..9c797c7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KpiKspi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_Kpipi0Kpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_Kpipi0Kpipi.dec new file mode 100644 index 0000000..04da980 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_Kpipi0Kpipi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_Kpipi0Kspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_Kpipi0Kspi.dec new file mode 100644 index 0000000..2c5c137 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_Kpipi0Kspi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KspipiKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KspipiKpipi.dec new file mode 100644 index 0000000..9250040 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KspipiKpipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KspipiKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KspipiKspi.dec new file mode 100644 index 0000000..f5e8048 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_D0piDchpi0_KspipiKspi.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KpipiKpipi.dec b/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KpipiKpipi.dec new file mode 100644 index 0000000..c8d023c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KpipiKpipi.dec @@ -0,0 +1,143 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KpipiKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KpipiKspi.dec new file mode 100644 index 0000000..5a18383 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KpipiKspi.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KspiKspi.dec b/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KspiKspi.dec new file mode 100644 index 0000000..c82dcac --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_Dchpi0Dchpi0_KspiKspi.dec @@ -0,0 +1,157 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B0 B0bar for SP5 # +# # +# Decay: B0 -> D(*)- D(*)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 MyD*+_1 MyD*-_2 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +0.5000 MyD*+_2 MyD*-_1 SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +Enddecay +# + +# +CDecay Myanti-B0 +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_DstarDstar_long_DpmPi0.dec b/BaBar_2014/B0B0bar_DstarDstar_long_DpmPi0.dec new file mode 100644 index 0000000..487d49f --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_long_DpmPi0.dec @@ -0,0 +1,61 @@ + +#################################################### +# # +# Inclusive D*D* decay.dec # +# # +# D*D* signal from B0-antiB0 for PRV0 # +# # +# # +# Produces a mix of signal # +# # +# 100% signal with longitudinal polariz : # +# # +# Decay: B0->D*(2010)+ D*(2010)-, anti-B0->X +c.c. # +# |-> D+ pi0 |->X # +# |-> K- pi+ pi+ 100% # +# # +# 13 Sept 00 # +# Roy Aleksan # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +0.5000 MyD*+ D*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.5000 D*+ MyD*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1,0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyB0 +0.5000 MyD*- D*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.5000 D*- MyD*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_DstarDstar_trans_DpmPi0.dec b/BaBar_2014/B0B0bar_DstarDstar_trans_DpmPi0.dec new file mode 100644 index 0000000..0f4f112 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarDstar_trans_DpmPi0.dec @@ -0,0 +1,61 @@ +#################################################### +# # +# Inclusive D*D* decay.dec # +# # +# D*D* signal from B0-antiB0 for PRV0 # +# # +# # +# Produces a mix of signal # +# # +# 100% signal with transverse polarization : # +# # +# Decay: B0->D*(2010)+ D*(2010)-, anti-B0->X +c.c. # +# |-> D+ pi0 |->X # +# |-> K- pi+ pi+ 100% # +# # +# 13 Sept 00 # +# Roy Aleksan # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +0.5000 MyD*+ D*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*+ MyD*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1,0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyB0 +0.5000 MyD*- D*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*- MyD*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarK2pi_D0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarK2pi_D0K3pi_K.dec new file mode 100644 index 0000000..364d835 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK2pi_D0K3pi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k2pi MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK2pi_D0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarK2pi_D0Kpi_K.dec new file mode 100644 index 0000000..c37b764 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK2pi_D0Kpi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k2pi MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK2pi_D0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarK2pi_D0Kpipi0_K.dec new file mode 100644 index 0000000..484b056 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK2pi_D0Kpipi0_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k2pi MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK2pi_DchK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarK2pi_DchK2pi_K0S.dec new file mode 100644 index 0000000..0c79e9b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK2pi_DchK2pi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*+k2pi MyD- myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK2pi_Dstar0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarK2pi_Dstar0K3pi_K.dec new file mode 100644 index 0000000..4405858 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK2pi_Dstar0K3pi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k2pi MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK2pi_Dstar0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarK2pi_Dstar0Kpi_K.dec new file mode 100644 index 0000000..b84ed82 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK2pi_Dstar0Kpi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k2pi MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK2pi_Dstar0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarK2pi_Dstar0Kpipi0_K.dec new file mode 100644 index 0000000..4922d61 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK2pi_Dstar0Kpipi0_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k2pi MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK3pi_D0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarK3pi_D0K3pi_K.dec new file mode 100644 index 0000000..b18794c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK3pi_D0K3pi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK3pi_D0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarK3pi_D0Kpi_K.dec new file mode 100644 index 0000000..5d07591 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK3pi_D0Kpi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK3pi_D0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarK3pi_D0Kpipi0_K.dec new file mode 100644 index 0000000..7dcab65 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK3pi_D0Kpipi0_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK3pi_DchK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarK3pi_DchK2pi_K0S.dec new file mode 100644 index 0000000..107c581 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK3pi_DchK2pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*+k3pi MyD- myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK3pi_Dstar0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarK3pi_Dstar0K3pi_K.dec new file mode 100644 index 0000000..b0521ce --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK3pi_Dstar0K3pi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK3pi_Dstar0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarK3pi_Dstar0Kpi_K.dec new file mode 100644 index 0000000..b1d4a14 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK3pi_Dstar0Kpi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK3pi_Dstar0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarK3pi_Dstar0Kpipi0_K.dec new file mode 100644 index 0000000..46c552f --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK3pi_Dstar0Kpipi0_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mK3pi.dec b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mK3pi.dec new file mode 100644 index 0000000..8221dc8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mK3pi.dec @@ -0,0 +1,45 @@ +########################################################################### +# # +# Decay: B0 -> D*- K+ (D*- -> anti-D0 pi- (anti-D0 -> K+ pi- pi+ pi-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +########################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- K+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKK.dec b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKK.dec new file mode 100644 index 0000000..aa3c73e --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKK.dec @@ -0,0 +1,45 @@ +################################################################### +# # +# Decay: B0 -> D*- K+ (D*- -> anti-D0 pi- (anti-D0 -> K+ K-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- K+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKpi.dec b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKpi.dec new file mode 100644 index 0000000..56b7745 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKpi.dec @@ -0,0 +1,45 @@ +################################################################### +# # +# Decay: B0 -> D*- K+ (D*- -> anti-D0 pi- (anti-D0 -> K+ pi-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- K+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKpipi0.dec b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKpipi0.dec new file mode 100644 index 0000000..85215b2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mKpipi0.dec @@ -0,0 +1,44 @@ +################################################################### +# # +# Decay: B0 -> D*- K+ (D*- -> anti-D0 pi- (anti-D0 -> K+ pi- pi0))# +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- K+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mpipi.dec b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mpipi.dec new file mode 100644 index 0000000..178cb98 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarK_DstarmD0pi_D0mpipi.dec @@ -0,0 +1,45 @@ +################################################################### +# # +# Decay: B0 -> D*- K+ (D*- -> anti-D0 pi- (anti-D0 -> pi+ pi-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ K- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- K+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpi_D0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarKpi_D0K3pi_K.dec new file mode 100644 index 0000000..720d44d --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpi_D0K3pi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpi_D0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarKpi_D0Kpi_K.dec new file mode 100644 index 0000000..bae1886 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpi_D0Kpi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpi_D0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarKpi_D0Kpipi0_K.dec new file mode 100644 index 0000000..dc5b954 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpi_D0Kpipi0_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpi_DchK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarKpi_DchK2pi_K0S.dec new file mode 100644 index 0000000..247cc59 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpi_DchK2pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*+kpi MyD- myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpi_Dstar0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarKpi_Dstar0K3pi_K.dec new file mode 100644 index 0000000..517c651 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpi_Dstar0K3pi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpi_Dstar0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarKpi_Dstar0Kpi_K.dec new file mode 100644 index 0000000..5119f6d --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpi_Dstar0Kpi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpi_Dstar0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarKpi_Dstar0Kpipi0_K.dec new file mode 100644 index 0000000..c8ebc2f --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpi_Dstar0Kpipi0_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpipi0_D0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarKpipi0_D0K3pi_K.dec new file mode 100644 index 0000000..68086f8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpipi0_D0K3pi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpipi0_D0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarKpipi0_D0Kpi_K.dec new file mode 100644 index 0000000..25fa0cc --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpipi0_D0Kpi_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpipi0_D0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarKpipi0_D0Kpipi0_K.dec new file mode 100644 index 0000000..b194082 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpipi0_D0Kpipi0_K.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpipi0_DchK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarKpipi0_DchK2pi_K0S.dec new file mode 100644 index 0000000..df79e66 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpipi0_DchK2pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*+kpipi0 MyD- myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0K3pi_K.dec b/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0K3pi_K.dec new file mode 100644 index 0000000..5f500ab --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0K3pi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0Kpi_K.dec b/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0Kpi_K.dec new file mode 100644 index 0000000..2424820 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0Kpi_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0Kpipi0_K.dec b/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0Kpipi0_K.dec new file mode 100644 index 0000000..9fa6bfd --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKpipi0_Dstar0Kpipi0_K.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKsPi.dec b/BaBar_2014/B0B0bar_DstarKsPi.dec new file mode 100755 index 0000000..3dc1ba0 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKsPi.dec @@ -0,0 +1,168 @@ +########################################################################## +# # +# Decay file for: B0(bar) --> Dstar-+ Ks pi+- # +# # +# Author: Troels Petersen, LAL # +# Date: 17th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.20698 MyB0 anti-B0 VSS_MIX dm; + 0.20698 Myanti-B0 B0 VSS_MIX dm; + 0.04301 Myanti-B0 anti-B0 VSS_MIX dm; + 0.04301 MyB0 B0 VSS_MIX dm; +Enddecay + + +################################################### +# B0(bar) --> Dstar-+ Ks pi+- +################################################### + +Decay MyB0 + 0.00010 MyD*- MyKs pi+ PHSP; +Enddecay + +Decay Myanti-B0 + 0.00010 MyD*+ MyKs pi- PHSP; +Enddecay + + +################################################### +# D decays +################################################### + +Decay MyD*- + 0.688 Myanti-D0 pi- VSS; + 0.312 MyD- pi0 VSS; +Enddecay + +Decay MyD*+ + 0.688 MyD0 pi+ VSS; + 0.312 MyD+ pi0 VSS; +Enddecay + + +# In the D* -> Dc pi0, only the Dc -> Kpipi mode is included! +Decay MyD- + 0.901 K+ pi- pi- D_DALITZ; +Enddecay + +Decay MyD+ + 0.901 K- pi+ pi+ D_DALITZ; +Enddecay + + +# Below are D0(bar) -> Kpi, Kpipi0, Kpipipi with resonances. +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +End + + diff --git a/BaBar_2014/B0B0bar_DstarKstar.dec b/BaBar_2014/B0B0bar_DstarKstar.dec new file mode 100755 index 0000000..5c8a7a8 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKstar.dec @@ -0,0 +1,70 @@ +################################################### +# # +# Decay: anti-B0 -> D*+ K*-, B0 -> X; + cc # +# # +# Author: Tania McMahon # +# Date: 05/30/02 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +ChargeConj MyB0 Myanti-B0 +# +# +Alias MyD*+ D*+ +Alias MyD*- D*- +ChargeConj MyD*+ MyD*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +Decay MyB0 +1.000 MyD*- MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.0383 K- pi+ PHSP; +0.1390 K- pi+ pi0 D_DALITZ; +0.0749 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +0.0383 K+ pi- PHSP; +0.1390 K+ pi- pi0 D_DALITZ; +0.0749 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +0.2265 MyK_S0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.2265 MyK_S0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarKstar_DrhoHELAMP.dec b/BaBar_2014/B0B0bar_DstarKstar_DrhoHELAMP.dec new file mode 100644 index 0000000..f0eddc1 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarKstar_DrhoHELAMP.dec @@ -0,0 +1,150 @@ +#################################################### +# Decay: B0 -> D*- K*+ # +# |-> brec c'tail |-> KS pi+ # +# |-> K+ pi0 # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +Alias Myomega omega +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# update: Ref. [B1]: +# +Decay MyB0 +1.0000 MyD*- MyK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +0.3060 MyD- pi0 VSS; +0.0110 MyD- gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +0.3060 MyD+ pi0 VSS; +0.0110 MyD+ gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD- +0.905 K+ pi- pi- D_DALITZ; +0.095 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.905 K- pi+ pi+ D_DALITZ; +0.095 MyKs pi+ PHSP; +Enddecay +# +Decay MyK*+ +0.5784 MyKs pi+ VSS; +0.4216 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +0.5784 MyKs pi- VSS; +0.4216 K- pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarRho_sin2bg.dec b/BaBar_2014/B0B0bar_DstarRho_sin2bg.dec new file mode 100644 index 0000000..338f71b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarRho_sin2bg.dec @@ -0,0 +1,135 @@ +## The angular, time-dependent description of B->D*rho +## Made by Max Baak (NIKHEF) + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +SP6LSFIX rho+ +SP6LSFIX rho- + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# D* rho HELAMP parameters taken from Phys Rev D67 112002 (2003). +# Only one line is required to do all the mixing and B0 B0bar suppressed (favored) decays. +# For more details see EvtGenModels/EvtGenSVVNONCPEIGEN.cc +# +Decay MyB0 +1.000 rho+ MyD*- SVV_NONCPEIGEN dm beta gamma 0.322 0.31 0.941 0 0.107 1.42 0.02 0 0.02 0 0.02 0 ; +Enddecay +# +Decay Myanti-B0 +# D* rho HELAMP parameters taken from Phys Rev D67 112002 (2003). +1.000 rho- MyD*+ SVV_NONCPEIGEN dm beta gamma 0.322 0.31 0.941 0 0.107 1.42 0.02 0 0.02 0 0.02 0 ; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +# Decay MyD- +# 0.589 K+ pi- pi- D_DALITZ; +# 0.317 MyKs pi- pi0 D_DALITZ; +# 0.094 MyKs pi- PHSP; +# Enddecay +# +# Decay MyD+ +# 0.589 K- pi+ pi+ D_DALITZ; +# 0.317 MyKs pi+ pi0 D_DALITZ; +# 0.094 MyKs pi+ PHSP; +# Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_DstarX_DstarD0pi_D0Kpi.dec b/BaBar_2014/B0B0bar_DstarX_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..387d5d3 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarX_DstarD0pi_D0Kpi.dec @@ -0,0 +1,57 @@ +################################################### +# # +# Inclusive D*D* decay.dec #2 # +# # +# D*D* . from B0 B0bar for SP2 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# | |->D0 pi+ # +# | |->K- pi+ # +# | # +# |-> X # +# # +# + cc # +# # +# Author: S.Xella (IHB AWG) 06/11/99 # +################################################### +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarX_DstarD0pi_D0Kpimix.dec b/BaBar_2014/B0B0bar_DstarX_DstarD0pi_D0Kpimix.dec new file mode 100644 index 0000000..6c5572f --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarX_DstarD0pi_D0Kpimix.dec @@ -0,0 +1,126 @@ +################################################### +# # +# Inclusive D*D* decay.dec #1 # +# # +# D*D* signal from B0-antiB0 for SP2 # +# # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# | |->D0 pi+ # +# | |->K- pi+ # +# | |->K- pi+ pi0 # +# | |->K- pi+ pi- pi+ # +# | |->Ks pi+ pi- # +# | # +# |-> X # +# # +# + cc # +# # +# Author: S.Xella 06/11/99 # +################################################### +# +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias My-a_1+ a_1+ +Alias My-a_1- a_1- +Alias My-anti-K*0 anti-K*0 +Alias My-K*0 K*0 +Alias My-K_1- K_1- +Alias My-K_1+ K_1+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0385 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0540 Myanti-K0 pi+ pi- D_DALITZ; +0.0360 My-a_1+ K- SVS; +0.0098 My-anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 My-K_1- pi+ SVS; +0.0095 My-anti-K*0 pi+ pi- PHSP; +0.0048 K- pi+ rho0 PHSP; +0.0176 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay My-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay My-K_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My-anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +Enddecay +# +Decay My-a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +########################################################### +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +0.0385 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0540 MyK0 pi- pi+ D_DALITZ; +0.0360 My-a_1- K+ SVS; +0.0098 My-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 My-K_1+ pi- SVS; +0.0095 My-K*0 pi- pi+ PHSP; +0.0048 K+ pi- rho0 PHSP; +0.0176 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay MyK0 +1.0000 MyKs PHSP; +Enddecay +# +Decay My-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay My-K_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi- pi+ PHSP; +Enddecay +# +Decay My-a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_3pi.dec b/BaBar_2014/B0B0bar_Dstar_3pi.dec new file mode 100644 index 0000000..fe3550a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_3pi.dec @@ -0,0 +1,35 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- pi+ pi+ pi- anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> X # +# # +# + cc # +# # +# Author: ? # +# Modified/corrected: G.London 2/2/99 # +# Modified: J. Chauveau 18 feb 99 # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 D*- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 +1.00 D*+ pi- pi- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_3pi_pi0.dec b/BaBar_2014/B0B0bar_Dstar_3pi_pi0.dec new file mode 100644 index 0000000..28214c7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_3pi_pi0.dec @@ -0,0 +1,134 @@ +############################################################## +# # +# Decay: anti-B0 -> D*(2010)+ pi+ pi0 pi- pi-, B0 -> X # +# | # +# |->D0 pi+ # +# | # +# |->reconstructible modes # +# # +# + cc # +# # +# Author: B. Dahmes (bdahmes@slac.stanford.edu) 23/8/02 # +############################################################## +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyomegaDdk omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay Myanti-B0 +1.0000 MyD*+ pi+ pi0 pi- pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyD*- pi+ pi+ pi0 pi- PHSP; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyomegaDdk +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +End + + + + diff --git a/BaBar_2014/B0B0bar_Dstar_Dsstar_recomodes_X.dec b/BaBar_2014/B0B0bar_Dstar_Dsstar_recomodes_X.dec new file mode 100644 index 0000000..ed1fcd0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dsstar_recomodes_X.dec @@ -0,0 +1,128 @@ +# +# $Id: B0B0bar_Dstar_Dsstar_recomodes_X.dec,v 1.5 2003/11/25 15:46:08 fnc Exp $ +# +############################################################ +# # +# Decay: B0 -> D*(2010)- Ds*+ + anti-B0 -> X # +# | | # +# |->D0 pi- |-> Ds gamma # +# | | # +# | |-> X # +# | # +# |-> reconstructible modes # +# # +# where reconstructable modes = # +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc # +# # +# Author: G. Finocchiaro 08-26-02 # +# # +# fnc@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +#Alias MyD_s+ D_s+ +#Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +#ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD_s*+ +#1.0000 MyD_s+ gamma VSP_PWAVE; +0.9420 D_s+ gamma VSP_PWAVE; +0.0580 D_s+ pi0 VSS; +Enddecay +CDecay MyD_s*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dsstar_recomodes_phipi.dec b/BaBar_2014/B0B0bar_Dstar_Dsstar_recomodes_phipi.dec new file mode 100644 index 0000000..bbba259 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dsstar_recomodes_phipi.dec @@ -0,0 +1,140 @@ +# +# $Id: B0B0bar_Dstar_Dsstar_recomodes_phipi.dec,v 1.2 2003/11/25 15:46:09 fnc Exp $ +# +############################################################ +# # +# Decay: B0 -> D*(2010)- D_s*+ + anti-B0 -> X # +# | | # +# |->D0 pi- |-> D_s+ gamma # +# | | # +# | |-> Phi(K+K-) pi+ # +# | # +# |-> reconstructible modes # +# # +# where reconstructable modes = # +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc # +# # +# Author: G. Finocchiaro 08-08-03 # +# # +# fnc@slac.stanford.edu # +# # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +Alias MyPhi phi +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD_s*+ +#1.0000 MyD_s+ gamma VSP_PWAVE; +0.9420 MyD_s+ gamma VSP_PWAVE; +0.0580 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s- +1.000 MyPhi pi- SVS; +Enddecay +# +CDecay MyD_s+ +# +Decay MyPhi +1.000 K+ K- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_X.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_X.dec new file mode 100644 index 0000000..3d66144 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_X.dec @@ -0,0 +1,121 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X.dec,v 1.3 2004/03/31 13:18:22 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.6845 2.62 0.96799 0.785 0.251 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100A_0.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100A_0.dec new file mode 100644 index 0000000..8e30780 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100A_0.dec @@ -0,0 +1,119 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b00-VV100A_0.dec,v 1.1 2004/07/12 18:27:37 rid Exp $ +# +# Author: R. de Sangro 12-07-04 +# +# riccardo.desangro@slac.stanford.edu +# +# History: +# +############################################################ +# +# Sin(2b)=0. +Define beta 0. +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0 0 1.414213562 0 0 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100Long.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100Long.dec new file mode 100644 index 0000000..aebec1f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100Long.dec @@ -0,0 +1,119 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b00-VV100Long.dec,v 1.1 2004/07/12 18:27:36 rid Exp $ +# +# Author: R. de Sangro 12-07-04 +# +# riccardo.desangro@slac.stanford.edu +# +# History: +# +############################################################ +# +# Sin(2b)=0. +Define beta 0. +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 1.0 2.62 0 0 0 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100Trans.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100Trans.dec new file mode 100644 index 0000000..bc72b37 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVV100Trans.dec @@ -0,0 +1,119 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b00-VV100Trans.dec,v 1.1 2004/07/12 18:27:37 rid Exp $ +# +# Author: R. de Sangro 12-07-04 +# +# riccardo.desangro@slac.stanford.edu +# +# History: +# +############################################################ +# +# Sin(2b)=0. +Define beta 0. +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0 0 0 0 1.0 2.62; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVVnom.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVVnom.dec new file mode 100644 index 0000000..b64daac --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b00mVVnom.dec @@ -0,0 +1,124 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b00-VVnom.dec,v 1.1 2004/06/15 12:49:13 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +# Sin(2b)=0. +Define beta 0. +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.6845 2.62 0.96799 0.785 0.251 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b03mVVnom.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b03mVVnom.dec new file mode 100644 index 0000000..8b667c0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b03mVVnom.dec @@ -0,0 +1,124 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b03-VVnom.dec,v 1.1 2004/06/15 12:49:13 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +# Sin(2b)=0.3 +Define beta 0.1523463270077 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.6845 2.62 0.96799 0.785 0.251 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b07mVVnom.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b07mVVnom.dec new file mode 100644 index 0000000..3173faf --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2b07mVVnom.dec @@ -0,0 +1,121 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b07-VVnom.dec,v 1.1 2004/06/15 12:49:13 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.6845 2.62 0.6845 0.785 0.251 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVV100CPeven.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVV100CPeven.dec new file mode 100644 index 0000000..ccbbee5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVV100CPeven.dec @@ -0,0 +1,121 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2bNom-VV100CPeven.dec,v 1.1 2004/06/15 12:49:13 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.7071 2.62 1 0.785 0 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVV100CPodd.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVV100CPodd.dec new file mode 100644 index 0000000..c4ec54a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVV100CPodd.dec @@ -0,0 +1,121 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2bNom-VV100CPodd.dec,v 1.1 2004/06/15 12:49:13 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0 2.62 0 0.785 1 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVVFlat.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVVFlat.dec new file mode 100644 index 0000000..e19d32e --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVVFlat.dec @@ -0,0 +1,121 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2bNom-VVFlat.dec,v 1.1 2004/06/15 12:49:13 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 1 2.62 1.414213 0.785 1 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVVnom.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVVnom.dec new file mode 100644 index 0000000..4542165 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bNommVVnom.dec @@ -0,0 +1,121 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2bNom-VVnom.dec,v 1.1 2004/07/16 02:30:11 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.6845 2.62 0.96799 0.785 0.251 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bm04mVVnom.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bm04mVVnom.dec new file mode 100644 index 0000000..4414758 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bm04mVVnom.dec @@ -0,0 +1,124 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b-04-VVnom.dec,v 1.1 2004/06/15 12:49:12 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +# Sin(2b)=-0.4 +Define beta 6.077 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.6845 2.62 0.96799 0.785 0.251 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bm07mVVnom.dec b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bm07mVVnom.dec new file mode 100644 index 0000000..9cc49a4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_Dstar_recomodes_Xms2bm07mVVnom.dec @@ -0,0 +1,124 @@ +############################################################ +# +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X +# | | +# |->D0 pi- |-> X +# | +# | +# | +# |-> reconstructible modes +# +# where reconstructable modes = +# D0 --> kpi,kpipi0,k3pi,Kspipi + cc +# +# $Id: B0B0bar_Dstar_Dstar_recomodes_X-s2b-07-VVnom.dec,v 1.1 2004/06/15 12:49:12 rid Exp $ +# +# Author: A. Calcaterra 05-09-03 +# +# acal@slac.stanford.edu +# +# History: +# +# 31-Mar-04 R. de Sangro changed SVV_HELAMP to SVV_CP to account for CP violation. +# The helicity coefficients are updated to +# reflect the measurement of Rt=0.063 see BAD548 - Aug-03 +# The CP-even components A_// and A_0 are set equal and such +# that the normalization A_//^2 + A_0^2 + A_|_^2 = 1 is preserved +############################################################ +# +# Sin(2b)=-0.7 +Define beta 5.895 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyD*- D*+ SVV_CP beta dm 1 0.6845 2.62 0.96799 0.785 0.251 0; +Enddecay +CDecay Myanti-B0 +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.1439 K- pi+ PHSP; +0.4962 K- pi+ pi0 D_DALITZ; +0.0758 MyK0bar pi+ pi- D_DALITZ; +# K- 3pi (total 0.0761) +0.1326 Mya_1+ K- SVS; +0.0364 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0080 MyK_1- pi+ SVS; +0.0394 Myanti-K*0 pi+ pi- PHSP; +0.0201 K- pi+ rho0 PHSP; +0.0481 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +End diff --git a/BaBar_2014/B0B0bar_Dstar_omega_pi.dec b/BaBar_2014/B0B0bar_Dstar_omega_pi.dec new file mode 100644 index 0000000..a1c09cd --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_omega_pi.dec @@ -0,0 +1,139 @@ +############################################################## +# # +# Decay: anti-B0 -> D*(2010)+ omega pi-, B0 -> X # +# | | # +# |->D0 pi+ |-> pi+ pi- pi0 # +# | # +# |->reconstructible modes # +# # +# + cc # +# # +# Author: B. Dahmes (bdahmes@slac.stanford.edu) 23/8/02 # +############################################################## +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Myomega omega +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyomegaDdk omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay Myanti-B0 +1.0000 MyD*+ Myomega pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyD*- Myomega pi+ PHSP; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyomegaDdk +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +End + + + + diff --git a/BaBar_2014/B0B0bar_Dstar_omega_pi_D0ToChrgK.dec b/BaBar_2014/B0B0bar_Dstar_omega_pi_D0ToChrgK.dec new file mode 100644 index 0000000..13054bb --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstar_omega_pi_D0ToChrgK.dec @@ -0,0 +1,122 @@ +############################################################## +# # +# Decay: anti-B0 -> D*(2010)+ omega pi-, B0 -> X # +# | | # +# |->D0 pi+ |-> pi+ pi- pi0 # +# | # +# |-> Kpi, Kpipi0, K3pi # +# # +# + cc # +# # +# Author: B. Dahmes (bdahmes@slac.stanford.edu) 8 Oct 03 # +############################################################## +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Myomega omega +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyomegaDdk omega +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay Myanti-B0 +1.0000 MyD*+ Myomega pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyD*- Myomega pi+ PHSP; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.1524 K- pi+ PHSP; +0.5504 K- pi+ pi0 D_DALITZ; +## K 3pi (0.2972 total) +0.1363 Mya_1+ K- SVS; +0.0132 MyK_1- pi+ SVS; +0.0402 Myanti-K*0 pi+ pi- PHSP; +0.0208 K- pi+ rho0 PHSP; +0.0496 K- pi+ pi+ pi- PHSP; +0.0371 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.1524 K+ pi- PHSP; +0.5504 K+ pi- pi0 D_DALITZ; +## K 3pi (0.2972 total) +0.1363 Mya_1- K+ SVS; +0.0132 MyK_1+ pi- SVS; +0.0402 MyK*0 pi- pi+ PHSP; +0.0208 K+ pi- rho0 PHSP; +0.0496 K+ pi- pi- pi+ PHSP; +0.0371 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyomegaDdk +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +End + + + + diff --git a/BaBar_2014/B0B0bar_Dstarenubar_DstarmD0pi_D0mKspi0.dec b/BaBar_2014/B0B0bar_Dstarenubar_DstarmD0pi_D0mKspi0.dec new file mode 100644 index 0000000..9f00f86 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarenubar_DstarmD0pi_D0mKspi0.dec @@ -0,0 +1,55 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |-> D0 pi+ +# |-> K0s pi0 # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0B +1.0000 MyD*+ e- anti-nu_e ISGW2; +Enddecay +# +Decay MyB0 +1.0000 MyD*- e+ nu_e ISGW2; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dstarenubar_DstarmDpi0_DmKspi.dec b/BaBar_2014/B0B0bar_Dstarenubar_DstarmDpi0_DmKspi.dec new file mode 100644 index 0000000..05faaf0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarenubar_DstarmDpi0_DmKspi.dec @@ -0,0 +1,55 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |-> D+ pi0 +# |-> K0s pi+ # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0B +1.0000 MyD*+ e- anti-nu_e PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +1.0000 MyD*- e+ nu_e PHOTOS ISGW2; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_DstarmKsPip_D0Kpi.dec b/BaBar_2014/B0B0bar_DstarmKsPip_D0Kpi.dec new file mode 100644 index 0000000..38a1458 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarmKsPip_D0Kpi.dec @@ -0,0 +1,60 @@ +#################################################### +# Exclusive DKpi decay # +# Decay: B0 -> D*(2010)+ K_S0 pi- # +# |-> D0 pi+ | # +# | |-> pi+ pi- # +# |-> K pi # +# # +# + cc # +# # +# 12th April 2000 # +# Troels C. Petersen # +# Jan Stark # +# Version 1.0 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyK_S0 pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyK_S0 pi- PHSP; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarmKspip_K3pi.dec b/BaBar_2014/B0B0bar_DstarmKspip_K3pi.dec new file mode 100644 index 0000000..71f5cef --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarmKspip_K3pi.dec @@ -0,0 +1,67 @@ +#################################################### +# Exclusive B0 -> D*- KS pi+ decay # +# Decay: B0 -> D*(2010)- K_S0 pi+ # +# |-> D0 pi- | # +# | |-> pi+ pi- # +# | # +# |-> K+ pi- pi+ pi- # +# # +# + cc # +# # +# 11th December 2001 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyD*- MyK_S0 pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyK_S0 pi- PHSP; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarmKspip_Kpi.dec b/BaBar_2014/B0B0bar_DstarmKspip_Kpi.dec new file mode 100644 index 0000000..eddee16 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarmKspip_Kpi.dec @@ -0,0 +1,66 @@ +#################################################### +# Exclusive B0 -> D*- KS pi+ decay # +# Decay: B0 -> D*(2010)- K_S0 pi+ # +# |-> D0 pi- | # +# | |-> pi+ pi- # +# |-> K pi # +# # +# + cc # +# # +# 11th December 2001 # +# Troels C. Petersen # +# Vasia Shelkov # +# Version 1.0 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.41397 MyB0 anti-B0 VSS_MIX dm; +0.41397 Myanti-B0 B0 VSS_MIX dm; +0.08603 Myanti-B0 anti-B0 VSS_MIX dm; +0.08603 MyB0 B0 VSS_MIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyD*- MyK_S0 pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyK_S0 pi- PHSP; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/B0B0bar_Dstarma0p.dec b/BaBar_2014/B0B0bar_Dstarma0p.dec new file mode 100644 index 0000000..9ee6fce --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarma0p.dec @@ -0,0 +1,143 @@ +################################################### +# # +# Decay: B0 -> D*(2010)- a0+, anti-B0 -> X # +# | # +# -->eta (gg) pi+ # +# # +# # +# Author: H. Snoek # +# Date: 13/jan/04 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyKs K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 + +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myeta eta +Alias Myomega omega +# +# Always one B0 to the signal channel +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00000 MyD*- Mya_0+ SVS; +Enddecay +# +Decay Myanti-B0 +1.00000 MyD*+ Mya_0- SVS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 MyK0bar pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyK0bar +1.00 MyKs PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_0- +1.000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_D0K3pi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_D0K3pi_Kplus.dec new file mode 100644 index 0000000..75428aa --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_D0K3pi_Kplus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->antiD0 pi- # +# |->K3pi # +# D0->K-pi+pi+pi- # +# Author: Marie-Helene Schune # +# # +# Created: 9/Sept/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_D0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_D0Kpi_Kplus.dec new file mode 100644 index 0000000..3e154ff --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_D0Kpi_Kplus.dec @@ -0,0 +1,198 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->D-pi0 or antiD0 pi- # +# | |-> K3pi # +# |- K+pi-pi- # +# D0->K-pi+ # +# Author: Jean-Pierre Lees # +# # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_D0Kpipi0_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_D0Kpipi0_Kplus.dec new file mode 100644 index 0000000..f439108 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_D0Kpipi0_Kplus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->antiD0 pi- # +# |-> K3pi # +# D0->Kpipi0 # +# Author: MH schune # +# # +# Created: 09/Sept/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_DplusK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_DplusK2pi_K0S.dec new file mode 100644 index 0000000..a7335a6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_DplusK2pi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*-D+K0s anti-B0->X # +# | |->K-pi+pi+ # +# |-D0bar pi- or D+ pi0 # +# |->K+pi,K+pipi0,K+3pi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD+ myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_Ds1Dstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..29dfb25 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->K3pi +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_Ds1_2536Dstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_Ds1_2536Dstar0K_Kpi.dec new file mode 100644 index 0000000..61a7abc --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_Ds1_2536Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->K3pi +# D's1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_DssDstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_DssDstar0K_Kpi.dec new file mode 100644 index 0000000..ee85180 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_DssDstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- D's1+, +# D*- -> D0bar pi-, D0bar->K3pi +# D's1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_Dstar0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_Dstar0Kpi_Kplus.dec new file mode 100644 index 0000000..f22540d --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_Dstar0Kpi_Kplus.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*-D*0K+ anti-B0->X # +# -->Kpi # +# D*-->antiD0 pi- # +# -->K3pi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusK2pi_K0S.dec new file mode 100644 index 0000000..43665f7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusK2pi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D*+->D0pi, D0->K3pi # +# D*-->D-pi0 D-->kpipi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*+k2pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusK3pi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusK3pi_K0S.dec new file mode 100644 index 0000000..0259db5 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusK3pi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*+k3pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusKpi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusKpi_K0S.dec new file mode 100644 index 0000000..7d9aebc --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusKpi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- are allowed in D0pi+ only # +# mode K3pi*Kpi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*+kpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusKpipi0_K0S.dec b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusKpipi0_K0S.dec new file mode 100644 index 0000000..95db634 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusK3pi_DstarplusKpipi0_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> Kpipi0 # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-k3pi MyD*+kpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_D0K3pi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpi_D0K3pi_Kplus.dec new file mode 100644 index 0000000..9bfcfa1 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_D0K3pi_Kplus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->antiD0 pi- # +# |->Kpi # +# D0->K-pi+pi+pi- # +# Author: Marie-Helene Schune # +# # +# Created: 9/Sept/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_D0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpi_D0Kpi_Kplus.dec new file mode 100644 index 0000000..d94d39d --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_D0Kpi_Kplus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->D-pi0 or antiD0 pi- # +# | |->Kpi # +# |- K+pi-pi- # +# D0->K-pi+ # +# Author: Jean-Pierre Lees # +# # +# Created: 17/March/2000 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_D0Kpipi0_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpi_D0Kpipi0_Kplus.dec new file mode 100644 index 0000000..114f63c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_D0Kpipi0_Kplus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->antiD0 pi- # +# |->Kpi # +# D0->K-pi+pi0 # +# Author: Marie-Helene Schune # +# # +# Created: 09/Sept/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_DplusK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusKpi_DplusK2pi_K0S.dec new file mode 100644 index 0000000..6460410 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_DplusK2pi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*-D+K0s anti-B0->X # +# | |->K-pi+pi+ # +# |-D0bar pi- # +# |->K+pi- # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD+ myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_K3pi.dec b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_K3pi.dec new file mode 100644 index 0000000..20cbc54 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_K3pi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(K3Pi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+k3pi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..9ba667b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_Kpipi0.dec b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_Kpipi0.dec new file mode 100644 index 0000000..badbb9c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1Dstar0K_Kpipi0.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPiPi0) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+kpipi0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_K3pi.dec b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_K3pi.dec new file mode 100644 index 0000000..20cbc54 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_K3pi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(K3Pi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+k3pi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_Kpi.dec new file mode 100644 index 0000000..9ba667b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_Kpipi0.dec b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_Kpipi0.dec new file mode 100644 index 0000000..badbb9c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_Ds1_2536Dstar0K_Kpipi0.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPiPi0) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+kpipi0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_K3pi.dec b/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_K3pi.dec new file mode 100644 index 0000000..66a7a9c --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_K3pi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- D's1+, +# D*- -> D0bar pi-, D0bar->Kpi +# D's1 -> D*0 K+, D*0 -> D0(K3Pi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+k3pi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_Kpi.dec new file mode 100644 index 0000000..4b0adf0 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- D's1+, +# D*- -> D0bar pi-, D0bar->Kpi +# D's1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_Kpipi0.dec b/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_Kpipi0.dec new file mode 100644 index 0000000..7efba6b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_DssDstar0K_Kpipi0.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- D's1+, +# D*- -> D0bar pi-, D0bar->Kpi +# D's1 -> D*0 K+, D*0 -> D0(KPiPi0) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD'_s1+kpipi0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_Dstar0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpi_Dstar0Kpi_Kplus.dec new file mode 100644 index 0000000..f0ac206 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_Dstar0Kpi_Kplus.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*0K+ anti-B0->X # +# D*-->antiD0 pi- or D-pi0 # +# Kpi*Kpi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_DstarplusK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusKpi_DstarplusK2pi_K0S.dec new file mode 100644 index 0000000..75c6a66 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_DstarplusK2pi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D*+->D0pi, D0->Kpi # +# D*-->D-pi0 D-->kpipi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD*+k2pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpi_DstarplusKpi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusKpi_DstarplusKpi_K0S.dec new file mode 100644 index 0000000..0656fe4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpi_DstarplusKpi_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- are allowed in D0pi+- only # +# kpi*kpi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpi MyD*+kpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_D0K3pi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_D0K3pi_Kplus.dec new file mode 100644 index 0000000..2119c30 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_D0K3pi_Kplus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->antiD0 pi- # +# |->Kpipi0 # +# D0->K-pi+pi+pi- # +# Author: Marie-Helene Schune # +# # +# Created: 9/Sept/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD0k3pi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_D0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_D0Kpi_Kplus.dec new file mode 100644 index 0000000..18e175f --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_D0Kpi_Kplus.dec @@ -0,0 +1,198 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->D-pi0 or antiD0 pi- # +# | |-> Kpipi0 # +# |- K+pi-pi- # +# D0->K-pi+ # +# Author: Jean-Pierre Lees # +# # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_D0Kpipi0_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_D0Kpipi0_Kplus.dec new file mode 100644 index 0000000..f2c0463 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_D0Kpipi0_Kplus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B0 -> D*-D0K+ B0Bar->X # +# D*- ->antiD0 pi- # +# |-> Kpipi0 # +# D0->K-pi+pi0 # +# Author: MH schune # +# # +# Created: 09/Sept/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD0kpipi0 K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_DplusK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_DplusK2pi_K0S.dec new file mode 100644 index 0000000..d033979 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_DplusK2pi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*-D+K0s anti-B0->X # +# | |->K-pi+pi+ +# |-D0bar pi- or D+ pi0 # +# |->K+pipi0 # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD+ myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_Ds1Dstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..d14e4d1 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpipi0 +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_Ds1_2536Dstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_Ds1_2536Dstar0K_Kpi.dec new file mode 100644 index 0000000..d14e4d1 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_Ds1_2536Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- Ds1+, +# D*- -> D0bar pi-, D0bar->Kpipi0 +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_DssDstar0K_Kpi.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_DssDstar0K_Kpi.dec new file mode 100644 index 0000000..4af1976 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_DssDstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B0 -> D*- D's1+, +# D*- -> D0bar pi-, D0bar->Kpipi0 +# D's1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : P. Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB0B +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_Dstar0Kpi_Kplus.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_Dstar0Kpi_Kplus.dec new file mode 100644 index 0000000..4e4f591 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_Dstar0Kpi_Kplus.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*-D*0K+ anti-B0->X # +# D*-->antiD0 pi- or D-pi0 # +# Kpipi0*Kpi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusK2pi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusK2pi_K0S.dec new file mode 100644 index 0000000..7d33173 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusK2pi_K0S.dec @@ -0,0 +1,203 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D*+->D0pi, D0->Kpipi0 # +# D*-->D-pi0 D-->kpipi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD*+k2pi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusKpi_K0S.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusKpi_K0S.dec new file mode 100644 index 0000000..7a95a5e --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusKpi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- are allowed in D+-pi0 only # +# D+- allowed in K2pi only # +# D0 allowed in Kpi,Kpipi0,K3pi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD*+kpi myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusKpipi0_K0S.dec b/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusKpipi0_K0S.dec new file mode 100644 index 0000000..af93749 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarminusKpipi0_DstarplusKpipi0_K0S.dec @@ -0,0 +1,195 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> Kpipipi0 # +# D0bar -> Kpipipi0 # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyD*-kpipi0 MyD*+kpipi0 myKs PHSP; +Enddecay +CDecay MyB0B +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_K2pi.dec b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_K2pi.dec new file mode 100644 index 0000000..7702de1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_K2pi.dec @@ -0,0 +1,49 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2010)- p anti-p pi+, anti-B0 -> X # +# +-> anti-D0 pi- # +# +-> K+ pi- pi0 # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# Changed from T. M. Hong's decay file # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD*- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*+ p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyD*- + 1.00000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ + 1.00000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi0 D_DALITZ; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 + 1.00000 K- pi+ pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_K3pi.dec b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_K3pi.dec new file mode 100644 index 0000000..039c84d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_K3pi.dec @@ -0,0 +1,49 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2010)- p anti-p pi+, anti-B0 -> X # +# +-> anti-D0 pi- # +# +-> K+ pi- pi- pi+ # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# Change from T. M. Hong's decay file # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD*- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*+ p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyD*- + 1.00000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ + 1.00000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_Kpi.dec b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_Kpi.dec new file mode 100644 index 0000000..a111b2f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_Kpi.dec @@ -0,0 +1,49 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2010)- p anti-p pi+, anti-B0 -> X # +# +-> anti-D0 pi- # +# +-> K+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# Changed from T. M. Hong's decay file # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD*- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*+ p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyD*- + 1.00000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ + 1.00000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_KpiK2piK3pi.dec b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_KpiK2piK3pi.dec new file mode 100644 index 0000000..6a91e99 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_KpiK2piK3pi.dec @@ -0,0 +1,57 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2010)- p+ anti-p- pi+, anti-B0 -> X # +# +-> anti-D0 pi- ( BF ) Relative # +# +-> K+ pi- ( 3.80%) 15.599% # +# +-> K+ pi- pi0 (13.1% ) 53.777% # +# +-> K+ pi- pi- pi+ ( 7.46%) 30.624% # +# Sum (24.36%) 100.000% # +# Comments: # +# # +# Author: T. M. Hong # +# Date: 15 Sep 03 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD*- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*+ p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyD*- + 1.00000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ + 1.00000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 + 0.15599 K+ pi- PHSP; + 0.53777 K+ pi- pi0 D_DALITZ; + 0.30624 K+ pi- pi- pi+ PHSP; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 + 0.15599 K- pi+ PHSP; + 0.53777 K- pi+ pi0 D_DALITZ; + 0.30624 K- pi+ pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_Ks2pi.dec b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_Ks2pi.dec new file mode 100644 index 0000000..f01a489 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarminusppbarpiplus_D0barpiminus_Ks2pi.dec @@ -0,0 +1,64 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B0 -> D*(2010)- p anti-p pi+, anti-B0 -> X # +# +-> anti-D0 pi- # +# -> K0 pi+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Date: March 22 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay MyB0 + 1.00000 MyD*- p+ anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD*+ p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyD*- + 1.00000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ + 1.00000 MyD0 pi+ VSS; +Enddecay +# // resonance structure in Dalitz modelled +Decay Myanti-D0 +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.0000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarmlpnu_cpv.dec b/BaBar_2014/B0B0bar_Dstarmlpnu_cpv.dec new file mode 100755 index 0000000..2e71d7d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarmlpnu_cpv.dec @@ -0,0 +1,52 @@ +####################################################### +# # +# Decay: B0 100%cpv # +# 20% |-> D*pi- # +# 20% |-> D*+rho- # +# 20% |-> D+rho- # +# 20% |-> D*+a1- # +# 20% |-> D+a1- # +####################################################### + + + + +Alias myB0 B0 +Alias myD*- D*- +Alias myD*+ D*+ +ChargeConj myD*- myD*+ + +Decay Upsilon(4S) +1.0 myB0 anti-B0 VSS; +Enddecay + +Decay myB0 + +#D* pi (100% cp viol)(d'=0,7) +0.2 myD*- pi+ SVS_NONCPEIGEN 1.1 dm 0.5 1. 0. 1.0 0.7; + + +#D* rho decay (100% cp viol)(d'[H+]= -0.15, d'[H0]= -0.1, d'[H-]= -0.2 )(hel.ampl. from hep-ex/0301028) +0.2 myD*- rho+ SVV_NONCPEIGEN dm beta gamma 0.107 1.42 0.941 0 0.322 0.31 0.107 1.27 0.941 -0.1 0.322 0.11; + +#D rho (100% cp viol)(d'=0,0) +0.2 rho+ D- SVS_NONCPEIGEN 1.1 dm 0.5 1 0 1. 0.0; + +#D* a1(100% cp viol)(d'[H+]= 0.2, d'[H0]= 0.15, d'[H-]= 0.25) +0.2 myD*- a_1+ SVV_NONCPEIGEN dm beta gamma 0.336 0.0 0.88 0.0 0.336 0.0 0.336 0.2 0.88 0.15 0.336 0.25 ; + +#D a1 (100% cp viol)(d'=2.5) +0.2 a_1+ D- SVS_NONCPEIGEN 1.1 dm 0.5 1 0 1. 2.5; +Enddecay + + + +Decay myD*- +1.0 anti-D0 pi- VSS; +Enddecay + +Decay myD*+ +1.0 D0 pi+ VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_DstarmpimD0pimmK4pi.dec b/BaBar_2014/B0B0bar_DstarmpimD0pimmK4pi.dec new file mode 100644 index 0000000..c091261 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarmpimD0pimmK4pi.dec @@ -0,0 +1,43 @@ +########################################################################### +# # +# Decay: antiB0 -> D*-pi+(D*- -> anti-D0 p-(anti-D0 ->K0spi-pi+pi-pi+)) # +# B0 -> X; + cc # +# # +# Author: Fabio Ferrarotto +# Date: 5/6/2002 +########################################################################### +# +# Alias MyB0 B0 +# Alias Myanti-B0 anti-B0 +# Alias MyD*+ D*+ +Alias MyD*- D*- +# Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 VSS_BMIX dm; +Enddecay +# +Decay B0 +1.000 MyD*- pi+ PHSP; +Enddecay +# +# Decay MyB0 +# 1.000 MyD*- pi+ PHSP; +# Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +# +Decay Myanti-D0 +1.000 MyK_S0 pi- pi+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarmunubar_DstarmD0pi_DmKspi0.dec b/BaBar_2014/B0B0bar_Dstarmunubar_DstarmD0pi_DmKspi0.dec new file mode 100644 index 0000000..f65fa08 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarmunubar_DstarmD0pi_DmKspi0.dec @@ -0,0 +1,55 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |-> D0 pi+ +# |-> K0s pi0 # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0B +1.0000 MyD*+ mu- anti-nu_mu ISGW2; +Enddecay +# +Decay MyB0 +1.0000 MyD*- mu+ nu_mu ISGW2; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dstarmunubar_DstarmDpi0_DmKspi.dec b/BaBar_2014/B0B0bar_Dstarmunubar_DstarmDpi0_DmKspi.dec new file mode 100644 index 0000000..2354f51 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarmunubar_DstarmDpi0_DmKspi.dec @@ -0,0 +1,55 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |-> D+ pi0 +# |-> K0s pi+ # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0B +1.0000 MyD*+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB0 +1.0000 MyD*- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_DstarpDm_DstarD0pi_DK2pi.dec b/BaBar_2014/B0B0bar_DstarpDm_DstarD0pi_DK2pi.dec new file mode 100644 index 0000000..17dc4ab --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDm_DstarD0pi_DK2pi.dec @@ -0,0 +1,67 @@ +#################################################### +# # +# Inclusive DD* decay.dec #1 # +# # +# DD* signal from B0-antiB0 for PRV0 # +# # +# # +# Produces a mix of signal # +# # +# 100% signal: # +# # +# Decay: anti-B0 -> D*(2010)+ D-, B0 -> X +c.c. # +# |-> D0 pi+ | # +# |-> X | # +# |-> K+ pi- pi- 100% # +# # +# 12 Feb 00 # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD- SVS; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD- +1,0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyB0 +1.0000 MyD*- MyD+ SVS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsm_DstarD0pi_D0Kpi.dec b/BaBar_2014/B0B0bar_DstarpDsm_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..3102e9b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsm_DstarD0pi_D0Kpi.dec @@ -0,0 +1,54 @@ +#################################################### +# # +# Inclusive DsD* decay.dec #1 # +# # +# DsD* signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ Ds-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> K-pi+ # +# 25 Oct 99 # +# Roy Aleksan (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ D_s- SVS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyD*- D_s+ SVS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsm_DstarD0pi_DsKpimix.dec b/BaBar_2014/B0B0bar_DstarpDsm_DstarD0pi_DsKpimix.dec new file mode 100644 index 0000000..be6968b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsm_DstarD0pi_DsKpimix.dec @@ -0,0 +1,105 @@ +#################################################### +# # +# Inclusive DsD* decay.dec #1 # +# # +# DsD* signal from B0-antiB0 for SP2 # +# # +# # +# # +# Decay: anti-B0 -> D*(2010)+ Ds-, B0 -> X +c.c. # +# |-> D0 pi+ | # +# |-> X | # +# |-> phi pi- 21% # +# |-> phi pi- pi0 39% # +# |-> K*0 K- 26% # +# |-> Ks K- 14% # +# # +# phi -> K+ K- # +# K*0 -> K+ pi- # +# Ks -> pi+ pi- # +# 25 Oct 99 # +# Roy Aleksan (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyPhi phi +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD_s- SVS; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD_s- +0.2100 MyPhi pi- SVS; +0.3900 MyPhi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 MyK*0 K- SVS; +0.1400 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +########################################################## +Decay MyB0 +1.0000 MyD*- MyD_s+ SVS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD_s+ +0.2100 MyPhi pi+ SVS; +0.3900 MyPhi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 Myanti-K*0 K+ SVS; +0.1400 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_D0Kpi.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..f86e2f2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_D0Kpi.dec @@ -0,0 +1,54 @@ +#################################################### +# # +# Inclusive Ds*D* decay.dec #1 # +# # +# DsD* signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ Ds*-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> K-pi+ # +# 25 Oct 99 # +# Roy Aleksan (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ D_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyD*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DK2pi.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DK2pi.dec new file mode 100644 index 0000000..45598f3 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DK2pi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive D*sD* decay.dec #1 # +# # +# DD* signal from B0-antiB0 for sp3 # +# # +# # +# Produces a mix of signal # +# # +# 100% signal: # +# # +# Decay: anti-B0 -> D*(2010)+ D*s-, B0 -> X +c.c. # +# |-> D+ pi0 # +# |-> K-pi+pi+ # +# # +# 20 sept 00 # +# S.Xella # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ D_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1,0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyB0 +1.0000 MyD*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix.dec new file mode 100644 index 0000000..a7568bc --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix.dec @@ -0,0 +1,113 @@ +#################################################### +# # +# Inclusive Ds*D* decay.dec #1 # +# # +# Ds*D* signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ Ds*-, B0 -> X +c.c. # +# |-> D0 pi+ Ds- gamma # +# |-> X | # +# |-> phi pi- 21% # +# |-> phi pi- pi0 39% # +# |-> K*0 K- 26% # +# |-> Ks K- 14% # +# # +# phi -> K+ K- # +# K*0 -> K+ pi- # +# Ks -> pi+ pi- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyPhi phi +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD_s- +0.2100 MyPhi pi- SVS; +0.3900 MyPhi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 MyK*0 K- SVS; +0.1400 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +###################################################################### +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD_s+ +0.2100 MyPhi pi+ SVS; +0.3900 MyPhi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 Myanti-K*0 K+ SVS; +0.1400 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix_long.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix_long.dec new file mode 100644 index 0000000..f5e297b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix_long.dec @@ -0,0 +1,113 @@ +#################################################### +# # +# Inclusive Ds*D* decay.dec #1 # +# # +# Ds*D* signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ Ds*-, B0 -> X +c.c. # +# |-> D0 pi+ Ds- gamma # +# |-> X | # +# |-> phi pi- 21% # +# |-> phi pi- pi0 39% # +# |-> K*0 K- 26% # +# |-> Ks K- 14% # +# # +# phi -> K+ K- # +# K*0 -> K+ pi- # +# Ks -> pi+ pi- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyPhi phi +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD_s- +0.2100 MyPhi pi- SVS; +0.3900 MyPhi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 MyK*0 K- SVS; +0.1400 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +###################################################################### +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD_s+ +0.2100 MyPhi pi+ SVS; +0.3900 MyPhi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 Myanti-K*0 K+ SVS; +0.1400 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix_transv.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix_transv.dec new file mode 100644 index 0000000..fd418b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsKpimix_transv.dec @@ -0,0 +1,113 @@ +#################################################### +# # +# Inclusive Ds*D* decay.dec #1 # +# # +# Ds*D* signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ Ds*-, B0 -> X +c.c. # +# |-> D0 pi+ Ds- gamma # +# |-> X | # +# |-> phi pi- 21% # +# |-> phi pi- pi0 39% # +# |-> K*0 K- 26% # +# |-> Ks K- 14% # +# # +# phi -> K+ K- # +# K*0 -> K+ pi- # +# Ks -> pi+ pi- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyPhi phi +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD_s- +0.2100 MyPhi pi- SVS; +0.3900 MyPhi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 MyK*0 K- SVS; +0.1400 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +###################################################################### +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD_s+ +0.2100 MyPhi pi+ SVS; +0.3900 MyPhi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 Myanti-K*0 K+ SVS; +0.1400 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsToPhiPi_long.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsToPhiPi_long.dec new file mode 100644 index 0000000..8818717 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsToPhiPi_long.dec @@ -0,0 +1,77 @@ +#################################################### +# # +# $Id: # +# # +# Inclusive Ds*D* decay.dec #1 # +# # +# Ds*D* signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ Ds*-, B0 -> X +c.c. # +# |-> D0 pi+ Ds- gamma # +# |-> X | # +# |-> phi pi- 100% # +# # +# phi -> K+ K- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +###################################################################### +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsToPhiPi_transv.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsToPhiPi_transv.dec new file mode 100644 index 0000000..a027ad4 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_DstarD0pi_DsToPhiPi_transv.dec @@ -0,0 +1,77 @@ +#################################################### +# # +# Inclusive Ds*D* decay.dec #1 # +# $Id: # +# # +# # +# Ds*D* signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ Ds*-, B0 -> X +c.c. # +# |-> D0 pi+ Ds- gamma # +# |-> X | # +# |-> phi pi- 100% # +# # +# phi -> K+ K- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +###################################################################### +Decay MyB0 +1.0000 MyD*- MyD_s*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_Xmunu_lg.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_Xmunu_lg.dec new file mode 100644 index 0000000..2d26a71 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_Xmunu_lg.dec @@ -0,0 +1,53 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> X mu- nu +# +# Mail: PCK@SLAC.STANFORD.EDU +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Long. polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +0.0200 phi mu- anti-nu_mu PHOTOS ISGW2; +0.0388 eta mu- anti-nu_mu PHOTOS ISGW2; +0.0168 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.0027 K0 mu- anti-nu_mu PHOTOS ISGW2; +0.0010 K*0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_Xmunu_tr.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_Xmunu_tr.dec new file mode 100644 index 0000000..9e99373 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_Xmunu_tr.dec @@ -0,0 +1,53 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> X mu- nu +# +# Mail: PCK@SLAC.STANFORD.EDU +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Tansverse polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +0.0200 phi mu- anti-nu_mu PHOTOS ISGW2; +0.0388 eta mu- anti-nu_mu PHOTOS ISGW2; +0.0168 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.0027 K0 mu- anti-nu_mu PHOTOS ISGW2; +0.0010 K*0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_munu_lg.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_munu_lg.dec new file mode 100644 index 0000000..46eea3f --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_munu_lg.dec @@ -0,0 +1,49 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> mu- nu +# +# Mail: PCK@SLAC.STANFORD.EDU +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Long. polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +1.0000 mu- anti-nu_mu PHOTOS SLN; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_munu_tr.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_munu_tr.dec new file mode 100644 index 0000000..56f1ff2 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_munu_tr.dec @@ -0,0 +1,49 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> mu- nu +# +# Mail: PCK@SLAC.STANFORD.EDU +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Transverse polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +1.0000 mu- anti-nu_mu PHOTOS SLN; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_phipi_lg.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_phipi_lg.dec new file mode 100644 index 0000000..937ac18 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_phipi_lg.dec @@ -0,0 +1,55 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> phi pi- +# +# phi --> K+K- +# +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +Alias Myphi phi +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Long. polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +1.0000 Myphi pi- SVS; +Enddecay +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +# +End + + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_phipi_tr.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_phipi_tr.dec new file mode 100644 index 0000000..4609318 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_phipi_tr.dec @@ -0,0 +1,55 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> phi pi- +# +# phi --> K+K- +# +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +Alias Myphi phi +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Transverse polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +1.0000 Myphi pi- SVS; +Enddecay +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +# +End + + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_taunu_lg.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_taunu_lg.dec new file mode 100644 index 0000000..9423dd6 --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_taunu_lg.dec @@ -0,0 +1,47 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> tau- nu +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Long. polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_taunu_tr.dec b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_taunu_tr.dec new file mode 100644 index 0000000..919268e --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpDsstarm_d0kpi_taunu_tr.dec @@ -0,0 +1,47 @@ +###################################### +# +# Y(4S) --> B0 anti-B0 +# +# B0 --> Generic decay +# anti-B0 --> D*(2010)+ Ds*- +# +# D*(2010)+ --> D0 pi+ +# Ds*- --> Ds- gamma +# +# D0 --> K- pi+ +# Ds- --> tau- nu +###################################### +# +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias MyD0 D0 +# No B0B0= mixing +Decay Upsilon(4S) +1.0 B0 Myanti-B0 VSS; +Enddecay +# Long. polarization +Decay Myanti-B0 +1.0000 MyD*+ MyD_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +Decay MyD_s- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_Dstarpa1m_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dstarpa1m_DstarD0pi.dec new file mode 100644 index 0000000..3176031 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpa1m_DstarD0pi.dec @@ -0,0 +1,41 @@ +#################################################### +# # +# Inclusive D*a1 decay.dec # +# # +# D*a1 signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> D*+ a_1-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +0.0130 D*- a_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyB0 +0.0130 D*+ a_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dstarpa1m_DstarD0pimfixedmcharge.dec b/BaBar_2014/B0B0bar_Dstarpa1m_DstarD0pimfixedmcharge.dec new file mode 100644 index 0000000..78ad1ed --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpa1m_DstarD0pimfixedmcharge.dec @@ -0,0 +1,41 @@ +#################################################### +# # +# Inclusive D*a1 decay.dec # +# # +# D*a1 signal from B0-antiB0 for SP3 # +# # +# Decay: anti-B0 -> D*+ a_1-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.0130 D*- a_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay Myanti-B0 +0.0130 D*+ a_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mK3pi.dec b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mK3pi.dec new file mode 100644 index 0000000..ce3f4f2 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mK3pi.dec @@ -0,0 +1,45 @@ +########################################################################### +# # +# Decay: B0 -> D*- pi+ (D*- -> anti-D0 pi- (anti-D0 -> K+ pi- pi+ pi-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +########################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKK.dec b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKK.dec new file mode 100644 index 0000000..2a391fa --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKK.dec @@ -0,0 +1,45 @@ +################################################################### +# # +# Decay: B0 -> D*- pi+ (D*- -> anti-D0 pi- (anti-D0 -> K+ K-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKpi.dec b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKpi.dec new file mode 100644 index 0000000..816b533 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKpi.dec @@ -0,0 +1,45 @@ +################################################################### +# # +# Decay: B0 -> D*- pi+ (D*- -> anti-D0 pi- (anti-D0 -> K+ pi-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKpipi0.dec b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKpipi0.dec new file mode 100644 index 0000000..e556cf4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mKpipi0.dec @@ -0,0 +1,44 @@ +#################################################################### +# # +# Decay: B0 -> D*- pi+ (D*- -> anti-D0 pi- (anti-D0 -> K+ pi- pi0))# +# anti-B0 -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +#################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mpipi.dec b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mpipi.dec new file mode 100644 index 0000000..5eb0e46 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpi_DstarmD0pi_D0mpipi.dec @@ -0,0 +1,45 @@ +################################################################### +# # +# Decay: B0 -> D*- pi+ (D*- -> anti-D0 pi- (anti-D0 -> pi+ pi-)) # +# anti-B0 -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ PHSP; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarpilnu_KPi.dec b/BaBar_2014/B0B0bar_Dstarpilnu_KPi.dec new file mode 100644 index 0000000..91b7b1f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpilnu_KPi.dec @@ -0,0 +1,55 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ pi0 l- anti-nu_l # +# |-> D0 pi # +# |-> K pi # +# # +# with l = e or mu # +# + CC # +# # +# Author: Rolf Dubitzky # +# Created: 15/Oct/99 # +# Mail: dubitzky@SLAC.STANFORD.EDU # +####################################################### +# + +# +Alias myantiB0 anti-B0 +Alias myB0 B0 +Alias myD*+ D*+ +Alias myD*- D*- +Alias myantiD0 anti-D0 +Alias myD0 D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myantiB0 +0.5000 myD*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.5000 myD*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB0 +0.5000 myD*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.5000 myD*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myD*+ +1.0000 myD0 pi+ VSS; +Enddecay +# +Decay myD*- +1.0000 myantiD0 pi- VSS; +Enddecay +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay myantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarpipi0_nonres.dec b/BaBar_2014/B0B0bar_Dstarpipi0_nonres.dec new file mode 100644 index 0000000..25b8f06 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpipi0_nonres.dec @@ -0,0 +1,38 @@ +#################################################### +# # +# Decay: anti-B0 -> D*+ pi- pi0, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 2000, Abi Soffer # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- pi0 PHSP; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ pi0 PHSP; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dstarpkm_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dstarpkm_DstarD0pi.dec new file mode 100644 index 0000000..e073c13 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpkm_DstarD0pi.dec @@ -0,0 +1,43 @@ +#################################################### +# # +# Inclusive D*K decay.dec #1 # +# # +# D*K signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ K-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 25.09.2001 M. Zito (IHBD AWG) # +# contact zito@slac # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ K- SVS; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyB0 +1.00 MyD*- K+ SVS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarpkstarm_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dstarpkstarm_DstarD0pi.dec new file mode 100644 index 0000000..b1ea7e1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarpkstarm_DstarD0pi.dec @@ -0,0 +1,59 @@ +#################################################### +# # +# Inclusive D*K* decay.dec # +# # +# D*K* signal from B0-antiB0 for SP2 # +# # +# Decay:anti-B0 -> D*(2010)+ K*-, B0 -> X +c.c. # +# |-> D0 pi+ |->K- pi0 # +# |-> X # +# # +# NB K* is long polarized # +# 26.09.2001 M. Zito (IHBD AWG) # +# contact : zito@slac # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyD*+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +# +Decay MyB0 +1.0000 MyD*- MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/B0B0bar_DstarpmD0mmKpimmpimpi_Xclnu.dec b/BaBar_2014/B0B0bar_DstarpmD0mmKpimmpimpi_Xclnu.dec new file mode 100644 index 0000000..800926a --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpmD0mmKpimmpimpi_Xclnu.dec @@ -0,0 +1,108 @@ +############################################################################### +# Up(4S) -> B0 B0bar + CC # +# | | # +# | +-> X_c l- nu_bar (l = e or mu) # +# | # +# +-> D*-(D0bar(K+pi-) pi-) pi+ # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xclnu b decay +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# -- reco B +Alias rB0 B0 +Alias rantiB0 anti-B0 +ChargeConj rB0 rantiB0 +# +Alias rD*+ D*+ +Alias rD*- D*- +ChargeConj rD*+ rD*- +# +Alias rD0 D0 +Alias rantiD0 anti-D0 +ChargeConj rD0 rantiD0 +# +Decay Upsilon(4S) +0.50000 rB0 myantiB0 VSS_MIX dm; +0.50000 myB0 rantiB0 VSS_MIX dm; +Enddecay +# +# ---------------------------------------------------------------------- +# -- B decay +Decay rB0 +1.000 rD*- pi+ SVS; +Enddecay +# +Decay rantiB0 +1.000 rD*+ pi- SVS; +Enddecay +# -- D*+ decay +Decay rD*+ +1.000 rD0 pi+ VSS; +Enddecay +# +Decay rD*- +1.000 rantiD0 pi- VSS; +Enddecay +# -- D0 decay +Decay rD0 +1.000 K- pi+ PHSP; +Enddecay +Decay rantiD0 +1.000 K+ pi- PHSP; +Enddecay +# ---------------------------------------------------------------------- +# force myB0 to always decay to Xc l nu +# +Decay myantiB0 +0.0560 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ e- anti-nu_e PHOTOS ISGW2; +0.0056 D_1+ e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_1+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*+ e- anti-nu_e PHOTOS ISGW2; +0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB0 +0.0560 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- e+ nu_e PHOTOS ISGW2; +0.0056 D_1- e+ nu_e PHOTOS ISGW2; +0.0020 D_0*- e+ nu_e PHOTOS ISGW2; +0.0037 D'_1- e+ nu_e PHOTOS ISGW2; +0.0037 D_2*- e+ nu_e PHOTOS ISGW2; +0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- mu+ nu_mu PHOTOS ISGW2; +0.0056 D_1- mu+ nu_mu PHOTOS ISGW2; +0.0020 D_0*- mu+ nu_mu PHOTOS ISGW2; +0.0037 D'_1- mu+ nu_mu PHOTOS ISGW2; +0.0037 D_2*- mu+ nu_mu PHOTOS ISGW2; +0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarpmD0mmKpimmpimpi_Xulnu.dec b/BaBar_2014/B0B0bar_DstarpmD0mmKpimmpimpi_Xulnu.dec new file mode 100644 index 0000000..a304e9b --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarpmD0mmKpimmpimpi_Xulnu.dec @@ -0,0 +1,139 @@ +############################################################################### +# Up(4S) -> B0 B0bar + CC # +# | | # +# | +-> X_u l- nu_bar (l = e or mu) # +# | # +# +-> D*-(D0bar(K+pi-) pi-) pi+ # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xulnu b decay +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# -- reco B +Alias rB0 B0 +Alias rantiB0 anti-B0 +ChargeConj rB0 rantiB0 +# +Alias rD*+ D*+ +Alias rD*- D*- +ChargeConj rD*+ rD*- +# +Alias rD0 D0 +Alias rantiD0 anti-D0 +ChargeConj rD0 rantiD0 +# +Decay Upsilon(4S) +0.50000 rB0 myantiB0 VSS_MIX dm; +0.50000 myB0 rantiB0 VSS_MIX dm; +Enddecay +# +# ---------------------------------------------------------------------- +# -- B decay +Decay rB0 +1.000 rD*- pi+ SVS; +Enddecay +# +Decay rantiB0 +1.000 rD*+ pi- SVS; +Enddecay +# -- D*+ decay +Decay rD*+ +1.000 rD0 pi+ VSS; +Enddecay +# +Decay rD*- +1.000 rantiD0 pi- VSS; +Enddecay +# -- D0 decay +Decay rD0 +1.000 K- pi+ PHSP; +Enddecay +Decay rantiD0 +1.000 K+ pi- PHSP; +Enddecay +# ---------------------------------------------------------------------- +# force myB0 to always decay to Xu l nu +Decay myantiB0 +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000153 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000192 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000009 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000058 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000030 pi(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000072 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000180 pi+ mu- anti-nu_mu ISGW2; +0.000250 rho+ mu- anti-nu_mu ISGW2; +0.000153 a_1+ mu- anti-nu_mu ISGW2; +0.000192 b_1+ mu- anti-nu_mu ISGW2; +0.000009 a_0+ mu- anti-nu_mu ISGW2; +0.000058 a_2+ mu- anti-nu_mu ISGW2; +0.000030 pi(2S)+ mu- anti-nu_mu ISGW2; +0.000072 rho(2S)+ mu- anti-nu_mu ISGW2; +Enddecay +# +Decay myB0 +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000250 rho- e+ nu_e PHOTOS ISGW2; +0.000153 a_1- e+ nu_e PHOTOS ISGW2; +0.000192 b_1- e+ nu_e PHOTOS ISGW2; +0.000009 a_0- e+ nu_e PHOTOS ISGW2; +0.000058 a_2- e+ nu_e PHOTOS ISGW2; +0.000030 pi(2S)- e+ nu_e PHOTOS ISGW2; +0.000072 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000180 pi- mu+ nu_mu ISGW2; +0.000250 rho- mu+ nu_mu ISGW2; +0.000153 a_1- mu+ nu_mu ISGW2; +0.000192 b_1- mu+ nu_mu ISGW2; +0.000009 a_0- mu+ nu_mu ISGW2; +0.000058 a_2- mu+ nu_mu ISGW2; +0.000030 pi(2S)- mu+ nu_mu ISGW2; +0.000072 rho(2S)- mu+ nu_mu ISGW2; +Enddecay +# +Decay pi(2S)+ +0.3500 rho0 pi+ PHSP; +0.3500 rho+ pi0 PHSP; +0.2000 pi+ pi+ pi- PHSP; +0.1000 pi+ pi0 pi0 PHSP; +Enddecay +Decay pi(2S)- +0.3500 rho0 pi- PHSP; +0.3500 rho- pi0 PHSP; +0.2000 pi- pi+ pi- PHSP; +0.1000 pi- pi0 pi0 PHSP; +Enddecay +Decay pi(2S)0 +0.3500 rho+ pi- PHSP; +0.3500 rho- pi+ PHSP; +0.2000 pi+ pi- pi0 PHSP; +0.1000 pi0 pi0 pi0 PHSP; +Enddecay +# +Decay rho(2S)+ +0.4000 pi+ pi0 PHSP; +0.4000 pi+ pi+ pi- pi0 PHSP; +0.2000 pi+ pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)- +0.4000 pi- pi0 PHSP; +0.4000 pi- pi+ pi- pi0 PHSP; +0.2000 pi- pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)0 +0.4000 pi+ pi- PHSP; +0.3500 pi+ pi- pi+ pi- PHSP; +0.1500 pi+ pi- pi0 pi0 PHSP; +0.1000 pi0 pi0 pi0 pi0 PHSP; +Enddecay +Decay omega(2S) +0.5000 rho+ pi- PHSP; +0.5000 rho- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_DstarppimD0pipmK4pi.dec b/BaBar_2014/B0B0bar_DstarppimD0pipmK4pi.dec new file mode 100644 index 0000000..7d22daf --- /dev/null +++ b/BaBar_2014/B0B0bar_DstarppimD0pipmK4pi.dec @@ -0,0 +1,50 @@ +########################################################################### +# # +# Decay: antiB0 -> D*-pi+(D*- -> anti-D0 p-(anti-D0 ->K0spi-pi+pi-pi+)) # +# B0 -> X; + cc # +# # +# Author: Fabio Ferrarotto +# Date: 5/6/2002 +########################################################################### +# +# Alias MyB0 B0 +# Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +# Alias MyD*- D*- +Alias MyD0 D0 +# Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 VSS_BMIX dm; +Enddecay +# +Decay anti-B0 +1.000 MyD*+ pi- PHSP; +Enddecay +# +# Decay MyB0 +# 1.000 MyD*- pi+ PHSP; +# Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +# Decay MyD*- +# 1.000 Myanti-D0 pi- VSS; +# Enddecay +# +Decay MyD0 +1.000 MyK_S0 pi+ pi+ pi- pi- PHSP; +Enddecay +# +# Decay Myanti-D0 +# 1.000 MyK_S0 pi- pi+ pi- pi+ PHSP; +# Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi.dec new file mode 100644 index 0000000..c7e5837 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi.dec @@ -0,0 +1,43 @@ +#################################################### +# # +# Inclusive D*pi decay.dec #1 # +# # +# D*pi signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ pi-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyB0 +1.00 MyD*- pi+ SVS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_DmKspi0.dec b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_DmKspi0.dec new file mode 100644 index 0000000..7ae086c --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_DmKspi0.dec @@ -0,0 +1,53 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ pi-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> Ks pi0 # +# # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ SVS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_cpv.dec b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_cpv.dec new file mode 100644 index 0000000..2163af0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_cpv.dec @@ -0,0 +1,23 @@ +Alias myB0 B0 + +Alias myD*- D*- +Alias myD*+ D*+ +ChargeConj myD*- myD*+ + +Decay Upsilon(4S) +1.0 myB0 anti-B0 VSS; +Enddecay + +Decay myB0 +1.0 myD*- pi+ SVS_NONCPEIGEN 1.1 dm 0.5 1 0 0.025 0.3; +Enddecay + +Decay myD*- +1.0 anti-D0 pi- VSS; +Enddecay + +Decay myD*+ +1.0 D0 pi+ VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_cpvB.dec b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_cpvB.dec new file mode 100644 index 0000000..e30be94 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarppim_DstarD0pi_cpvB.dec @@ -0,0 +1,23 @@ +Alias myB0 B0 + +Alias myD*- D*- +Alias myD*+ D*+ +ChargeConj myD*- myD*+ + +Decay Upsilon(4S) +1.0 myB0 anti-B0 VSS; +Enddecay + +Decay myB0 +1.0 myD*- pi+ SVS_NONCPEIGEN 1.1 dm 0.5 1 0 0.1 0.3; +Enddecay + +Decay myD*- +1.0 anti-D0 pi- VSS; +Enddecay + +Decay myD*+ +1.0 D0 pi+ VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0.dec b/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0.dec new file mode 100644 index 0000000..a12b838 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0.dec @@ -0,0 +1,43 @@ +#################################################### +# # +# Inclusive D*pi decay.dec #1 # +# # +# D*pi signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*(2010)+ pi-, B0 -> X +c.c. # +# |-> D+ pi0 # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*+ +1.0000 D+ pi0 VSS; +Enddecay +# +Decay MyB0 +1.00 MyD*- pi+ SVS; +Enddecay +# +Decay MyD*- +1.0000 D- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0_DmKspi.dec b/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0_DmKspi.dec new file mode 100644 index 0000000..e746400 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0_DmKspi.dec @@ -0,0 +1,53 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ pi-, B0 -> X +c.c. # +# |-> D+ pi0 # +# |-> Ks pi+ # +# # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD- D- +Alias MyD+ D+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- pi+ SVS; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0_cpv.dec b/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0_cpv.dec new file mode 100644 index 0000000..2163af0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarppim_DstarDpi0_cpv.dec @@ -0,0 +1,23 @@ +Alias myB0 B0 + +Alias myD*- D*- +Alias myD*+ D*+ +ChargeConj myD*- myD*+ + +Decay Upsilon(4S) +1.0 myB0 anti-B0 VSS; +Enddecay + +Decay myB0 +1.0 myD*- pi+ SVS_NONCPEIGEN 1.1 dm 0.5 1 0 0.025 0.3; +Enddecay + +Decay myD*- +1.0 anti-D0 pi- VSS; +Enddecay + +Decay myD*+ +1.0 D0 pi+ VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pi.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pi.dec new file mode 100644 index 0000000..90e8ea6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pi.dec @@ -0,0 +1,43 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyB0 +1.000 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pi_DmKspi0.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pi_DmKspi0.dec new file mode 100644 index 0000000..023ddac --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pi_DmKspi0.dec @@ -0,0 +1,53 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> Ks pi0 # +# # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_HELAMP.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_HELAMP.dec new file mode 100644 index 0000000..7b08b3f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_HELAMP.dec @@ -0,0 +1,45 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#contact Abi abi@slac # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ rho- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyB0 +1.000 MyD*- rho+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_HELAMPmfix.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_HELAMPmfix.dec new file mode 100644 index 0000000..53371c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_HELAMPmfix.dec @@ -0,0 +1,47 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +# Bug fix in the order of the H+ and H- amplitude # +# parameters, Abi abi@slac, 4/9/04 # +# contact Abi abi@slac # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyB0 +1.000 rho+ MyD*- SVV_HELAMP 0.317 0.19 0.936 0.0 0.152 1.47; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_NONCPEIGEN.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_NONCPEIGEN.dec new file mode 100644 index 0000000..c811875 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarD0pimSVV_NONCPEIGEN.dec @@ -0,0 +1,43 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#contact Abi abi@slac # +#################################################### +# +# +# +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +ChargeConj MyD*- MyD*+ +# +Decay Upsilon(4S) +1.0 MyB0 anti-B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyD*- rho+ SVV_NONCPEIGEN dm beta gamma + 0.152 1.47 0.936 0 0.317 0.19 + 0.0304 1.2 0.01872 0.3 0.00634 0; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0.dec new file mode 100644 index 0000000..045a89f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0.dec @@ -0,0 +1,43 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D+ pi0 # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D+ pi0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 D- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0_DmKspi.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0_DmKspi.dec new file mode 100644 index 0000000..c336e3a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0_DmKspi.dec @@ -0,0 +1,53 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D+ pi0 # +# |-> Ks pi+ # +# # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD- D- +Alias MyD+ D+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0mSVV_HELAMP.dec b/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0mSVV_HELAMP.dec new file mode 100644 index 0000000..689c97b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarprhom_DstarDpi0mSVV_HELAMP.dec @@ -0,0 +1,43 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B0-antiB0 for SP2 # +# # +# Decay: anti-B0 -> D*+ rho-, B0 -> X +c.c. # +# |-> D+ pi0 # +# |-> X # +# # +# # +# 11.11.99 S.Xella (IHB AWG) # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ rho- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyD*+ +1.0000 D+ pi0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyD*- rho+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyD*- +1.0000 D- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstarstarlnu.dec b/BaBar_2014/B0B0bar_Dstarstarlnu.dec new file mode 100644 index 0000000..2fca223 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstarstarlnu.dec @@ -0,0 +1,153 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0-> D** l nu # +# # +# with D** # +# D_1+ -> D*0 pi+ # +# -> D*+ pi0 # +# D'_1+ -> D*+ pi0 # +# D_2*+ -> D*0 pi+ # +# -> D*+ pi0 # +# -> D0 pi+ # +# -> D+ pi0 # +# D*+ pi0 # +# # +# with D*+ -> D0 pi+ # +# D*0 -> D0 pi0 # +# # +# with D0 -> K- pi+ # +# D+ -> K- pi+ pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# Rolf Dubitzky # +# Created: 11/Dec/01 # +# Mail: dubitzky@SLAC.STANFORD.EDU # +####################################################### +# + +# +Alias myantiB0 anti-B0 +Alias myB0 B0 +# +Alias myD_1+ D_1+ +Alias myD'_1+ D'_1+ +Alias myD_2*+ D_2*+ +Alias myD_1- D_1- +Alias myD'_1- D'_1- +Alias myD_2*- D_2*- +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +Alias myD*+ D*+ +Alias myD*- D*- +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +Alias myD+ D+ +Alias myD- D- +# + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +0.1250 myD_1- e+ nu_e PHOTOS ISGW2; +0.1250 myD'_1- e+ nu_e PHOTOS ISGW2; +0.1250 myD_2*- e+ nu_e PHOTOS ISGW2; +0.1250 myD*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.1250 myD_1- mu+ nu_mu PHOTOS ISGW2; +0.1250 myD'_1- mu+ nu_mu PHOTOS ISGW2; +0.1250 myD_2*- mu+ nu_mu PHOTOS ISGW2; +0.1250 myD*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myantiB0 +0.1250 myD_1+ e- anti-nu_e PHOTOS ISGW2; +0.1250 myD'_1+ e- anti-nu_e PHOTOS ISGW2; +0.1250 myD_2*+ e- anti-nu_e PHOTOS ISGW2; +0.1250 myD*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.1250 myD_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.1250 myD'_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.1250 myD_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.1250 myD*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# + + +# +# D** +# +Decay myD_1+ +0.5000 myD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 myD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay myD_1- +0.5000 myD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 myanti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay myD'_1+ +1.0000 myD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay myD'_1- +1.0000 myD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay myD_2*+ +0.2500 myD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myD+ pi0 TSS; +0.2500 myD0 pi+ TSS; +Enddecay +Decay myD_2*- +0.2500 myD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myanti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myD- pi0 TSS; +0.2500 myanti-D0 pi- TSS; +Enddecay + + +# +# D* +# +Decay myD*+ +1.0000 myD0 pi+ VSS; +Enddecay +Decay myD*- +1.0000 myanti-D0 pi- VSS; +Enddecay +Decay myD*0 +1.0000 myD0 pi0 VSS; +Enddecay +Decay myanti-D*0 +1.0000 myanti-D0 pi0 VSS; +Enddecay + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +Decay myD+ +# the Dalitz mode below includes K*bar(892)0 pi+, K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +Decay myD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +1.0000 K+ pi- pi- D_DALITZ; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_DstplusK.dec b/BaBar_2014/B0B0bar_DstplusK.dec new file mode 100644 index 0000000..a8cfa6a --- /dev/null +++ b/BaBar_2014/B0B0bar_DstplusK.dec @@ -0,0 +1,64 @@ +################################################### +# # +# Decay: anti-B0 -> D*+ K-, B0 -> X; + cc # +# # +# Author: Natalia Kuznetsova # +# Date: 11/25/99 # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +ChargeConj MyB0 Myanti-B0 +# +# +Alias MyD*+ D*+ +Alias MyD*- D*- +ChargeConj MyD*+ MyD*- +# +Alias MyD+ D+ +Alias MyD- D- +ChargeConj MyD+ MyD- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.000 MyD*+ K- SVS; +Enddecay +Decay MyB0 +1.000 MyD*- K+ SVS; +Enddecay +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +0.3060 MyD+ pi0 VSS; +Enddecay +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +0.3060 MyD- pi0 VSS; +Enddecay +# +Decay MyD+ +0.0910 K- pi+ pi+ D_DALITZ; +0.0060 K- pi+ pi+ pi0 PHSP; +Enddecay +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +0.0060 K+ pi- pi- pi0 PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstr0pipluslnu_D0Kpi.dec b/BaBar_2014/B0B0bar_Dstr0pipluslnu_D0Kpi.dec new file mode 100644 index 0000000..e52305a --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstr0pipluslnu_D0Kpi.dec @@ -0,0 +1,82 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*0 pi+ l nu # +# |-> D*0 pi0 # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +############################################################ +# +# +Alias myB0 B0 +Alias myanti-B0 anti-B0 +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myanti-B0 VSS_BMIX dm; +Enddecay +# + + +# +# B +# +Decay myanti-B0 +0.5000 myD*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.5000 myD*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB0 +0.5000 myanti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.5000 myanti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu.dec b/BaBar_2014/B0B0bar_Dstrlnu.dec new file mode 100644 index 0000000..c269187 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu.dec @@ -0,0 +1,108 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> K- pi+ # +# K- pi+ pi0 # +# K- pi+ pi+ pi- # +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Mail: SCHUNEM@SLAC.STANFORD.EDU +# Created: 09/Feb/99 # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +# And now the nightmare ... D0-> KPi , Kpipi0, K3pi +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +Decay MyD0B +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_KPi.dec b/BaBar_2014/B0B0bar_Dstrlnu_KPi.dec new file mode 100644 index 0000000..fdf379d --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_KPi.dec @@ -0,0 +1,57 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> K- pi+ # +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Created: 15/Nov/99 # +# Mail: SCHUNEM@SLAC.STANFORD.EDU +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_Kpipi.dec b/BaBar_2014/B0B0bar_Dstrlnu_Kpipi.dec new file mode 100644 index 0000000..0a53ed1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_Kpipi.dec @@ -0,0 +1,58 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> K- pi+ pi0 # +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Modified by Rowan Hamilton # +# Mail: METZLER@SLAC.STANFORD.EDU +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +Decay MyD0B +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_Kpipipi.dec b/BaBar_2014/B0B0bar_Dstrlnu_Kpipipi.dec new file mode 100644 index 0000000..e5fc6a9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_Kpipipi.dec @@ -0,0 +1,58 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> K- pi+ pi+ pi- # +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Modified by Rowan Hamilton # +# Mail: METZLER@SLAC.STANFORD.EDU +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +# +Decay MyD0 +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +Decay MyD0B +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_Kspipi.dec b/BaBar_2014/B0B0bar_Dstrlnu_Kspipi.dec new file mode 100644 index 0000000..cc7b5a7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_Kspipi.dec @@ -0,0 +1,71 @@ +###################################################### +# # +# Decay:B0-> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> Ks pi+ pi- # +# # +# with l = e or mu # +# +CC # +# # +# # +# Mail: VSHARMA@SLAC.STANFORD.EDU +###################################################### + + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.7000 MyK*- pi+ SVS; +0.3000 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.7000 MyK*+ pi- SVS; +0.3000 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyK*- +1.0000 MyKs pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyKs pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR1high.dec b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR1high.dec new file mode 100644 index 0000000..e2e7183 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR1high.dec @@ -0,0 +1,80 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> Kpi, K3pi, Kpipi0, Kspipi +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Altered: MS Gill 22/Dec/2002 # +# Contact: msgill@slac.stanford.edu # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.6 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.6 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.6 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.6 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0746 K- pi+ pi- pi+ PHSP; +0.131 K- pi+ pi0 PHSP; +0.0207 MyK*- pi+ SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +0.0746 K+ pi- pi- pi+ PHSP; +0.131 K+ pi- pi0 PHSP; +0.0207 MyK*+ pi- SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyK*- +1.0000 MyKs pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyKs pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR1low.dec b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR1low.dec new file mode 100644 index 0000000..1469898 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR1low.dec @@ -0,0 +1,80 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> Kpi, K3pi, Kpipi0, Kspipi +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Altered: MS Gill 22/Dec/2002 # +# Contact: msgill@slac.stanford.edu # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.00 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.00 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.00 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.00 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0746 K- pi+ pi- pi+ PHSP; +0.131 K- pi+ pi0 PHSP; +0.0207 MyK*- pi+ SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +0.0746 K+ pi- pi- pi+ PHSP; +0.131 K+ pi- pi0 PHSP; +0.0207 MyK*+ pi- SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyK*- +1.0000 MyKs pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyKs pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR2high.dec b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR2high.dec new file mode 100644 index 0000000..df0f3e9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR2high.dec @@ -0,0 +1,80 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> Kpi, K3pi, Kpipi0, Kspipi +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Altered: MS Gill 22/Dec/2002 # +# Contact: msgill@slac.stanford.edu # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 1.00; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 1.00; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 1.00; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 1.00; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0746 K- pi+ pi- pi+ PHSP; +0.131 K- pi+ pi0 PHSP; +0.0207 MyK*- pi+ SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +0.0746 K+ pi- pi- pi+ PHSP; +0.131 K+ pi- pi0 PHSP; +0.0207 MyK*+ pi- SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyK*- +1.0000 MyKs pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyKs pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR2low.dec b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR2low.dec new file mode 100644 index 0000000..762c96f --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsR2low.dec @@ -0,0 +1,80 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> Kpi, K3pi, Kpipi0, Kspipi +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Altered: MS Gill 22/Dec/2002 # +# Contact: msgill@slac.stanford.edu # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.50; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.50; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.50; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.50; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0746 K- pi+ pi- pi+ PHSP; +0.131 K- pi+ pi0 PHSP; +0.0207 MyK*- pi+ SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +0.0746 K+ pi- pi- pi+ PHSP; +0.131 K+ pi- pi0 PHSP; +0.0207 MyK*+ pi- SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyK*- +1.0000 MyKs pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyKs pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsRhosqhigh.dec b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsRhosqhigh.dec new file mode 100644 index 0000000..aa8bb44 --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsRhosqhigh.dec @@ -0,0 +1,80 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> Kpi, K3pi, Kpipi0, Kspipi +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Altered: MS Gill 22/Dec/2002 # +# Contact: msgill@slac.stanford.edu # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 1.50 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 1.50 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 1.50 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 1.50 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0746 K- pi+ pi- pi+ PHSP; +0.131 K- pi+ pi0 PHSP; +0.0207 MyK*- pi+ SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +0.0746 K+ pi- pi- pi+ PHSP; +0.131 K+ pi- pi0 PHSP; +0.0207 MyK*+ pi- SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyK*- +1.0000 MyKs pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyKs pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsRhosqlow.dec b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsRhosqlow.dec new file mode 100644 index 0000000..31de3ad --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_altHQETparamsRhosqlow.dec @@ -0,0 +1,80 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> Kpi, K3pi, Kpipi0, Kspipi +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Altered: MS Gill 22/Dec/2002 # +# Contact: msgill@slac.stanford.edu # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.50 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.50 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.50 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.50 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0746 K- pi+ pi- pi+ PHSP; +0.131 K- pi+ pi0 PHSP; +0.0207 MyK*- pi+ SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +0.0746 K+ pi- pi- pi+ PHSP; +0.131 K+ pi- pi0 PHSP; +0.0207 MyK*+ pi- SVS; +0.0089 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyK*- +1.0000 MyKs pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyKs pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_genericD0.dec b/BaBar_2014/B0B0bar_Dstrlnu_genericD0.dec new file mode 100755 index 0000000..7e5495b --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_genericD0.dec @@ -0,0 +1,42 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# # +# # +# # +# # +# with l = e or mu +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Dstrlnu_phspOnly.dec b/BaBar_2014/B0B0bar_Dstrlnu_phspOnly.dec new file mode 100644 index 0000000..9ecfbdc --- /dev/null +++ b/BaBar_2014/B0B0bar_Dstrlnu_phspOnly.dec @@ -0,0 +1,110 @@ +####################################################### +# # +# Decay: B0 -> X anti-B0->D*+ l- anti-nu_l # +# |->D0 pi+ # +# |-> K- pi+ # +# K- pi+ pi0 # +# K- pi+ pi+ pi- # +# # +# with l = e or mu # +# + CC # +# Comments: using default value for dm # +# B0's decay flat in phspace, no HQET assumed # +# # +# # +# Original: M.H. Schune + S. Plaszczynski # +# Modified: MS Gill (msgill@slac) # +# Created: 10/Jul/2003 # +####################################################### +# + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +# +Decay MyB0B +0.5000 MyD*+ e- anti-nu_e PHOTOS PHSP; +0.5000 MyD*+ mu- anti-nu_mu PHOTOS PHSP; +Enddecay +# +Decay MyB0 +0.5000 MyD*- e+ nu_e PHOTOS PHSP; +0.5000 MyD*- mu+ nu_mu PHOTOS PHSP; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +# And now the nightmare ... D0-> KPi , Kpipi0, K3pi +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +Decay MyD0B +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_EtacKS_pm.dec b/BaBar_2014/B0B0bar_EtacKS_pm.dec new file mode 100644 index 0000000..c20b017 --- /dev/null +++ b/BaBar_2014/B0B0bar_EtacKS_pm.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> 2pi2K # +# |-> 4K # +# |-> 4pi # +# |-> rho0 rho0 # +# + cc # +# # +# Author: G. London # +# Created: 22/March/99 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +Alias MyEta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +# br(eta pi pi) is 0.032*0.4 where 0.4 comes from eta->gg +Decay MyEta_c +0.0200 pi+ pi- K+ K- PHSP; +0.0210 K+ K- K+ K- PHSP; +0.0128 MyEta pi+ pi- PHSP; +0.0120 pi+ pi- pi+ pi- PHSP; +0.0090 rho0 rho0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyEta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_FSR_epem.dec b/BaBar_2014/B0B0bar_FSR_epem.dec new file mode 100644 index 0000000..3a8eb65 --- /dev/null +++ b/BaBar_2014/B0B0bar_FSR_epem.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: anti-B0 -> e+ e-, B0->X # +# FSR + SLL # +# + cc # +# # +# Author: Valerie H. & Urs L. # +# Date: Jan 22, 2002 # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 e+ e- PHOTOS SLL; +Enddecay +# +Decay Myanti-B0 +1.0000 e+ e- PHOTOS SLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_FSR_epmum.dec b/BaBar_2014/B0B0bar_FSR_epmum.dec new file mode 100644 index 0000000..055ee14 --- /dev/null +++ b/BaBar_2014/B0B0bar_FSR_epmum.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: anti-B0 -> e+ mu-, B0->X # +# FSR + SLL # +# + cc # +# # +# Author: Valerie H. & Urs L. # +# Date: Feb 12, 2002 # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 e+ mu- PHOTOS SLL; +Enddecay +# +Decay Myanti-B0 +1.0000 mu+ e- PHOTOS SLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_FSR_eptaum.dec b/BaBar_2014/B0B0bar_FSR_eptaum.dec new file mode 100644 index 0000000..12e7949 --- /dev/null +++ b/BaBar_2014/B0B0bar_FSR_eptaum.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: anti-B0 -> e+ tau-, B0->X # +# FSR + SLL # +# + cc # +# # +# Author: Valerie H. & Urs L. # +# Date: Feb 12, 2002 # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 e+ tau- PHOTOS SLL; +Enddecay +# +Decay Myanti-B0 +1.0000 tau+ e- PHOTOS SLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_FSR_mupmum.dec b/BaBar_2014/B0B0bar_FSR_mupmum.dec new file mode 100644 index 0000000..61c69a4 --- /dev/null +++ b/BaBar_2014/B0B0bar_FSR_mupmum.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: anti-B0 -> mu+ mu-, B0->X # +# FSR + SLL # +# + cc # +# # +# Author: Valerie H. & Urs L. # +# Date: Jan 22, 2002 # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 mu+ mu- PHOTOS SLL; +Enddecay +# +Decay Myanti-B0 +1.0000 mu+ mu- PHOTOS SLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_FSR_muptaum.dec b/BaBar_2014/B0B0bar_FSR_muptaum.dec new file mode 100644 index 0000000..8ac976f --- /dev/null +++ b/BaBar_2014/B0B0bar_FSR_muptaum.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: anti-B0 -> mu+ tau-, B0->X # +# FSR + SLL # +# + cc # +# # +# Author: Valerie H. & Urs L. # +# Date: Feb 12, 2002 # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 mu+ tau- PHOTOS SLL; +Enddecay +# +Decay Myanti-B0 +1.0000 tau+ mu- PHOTOS SLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_FSR_tauptaum.dec b/BaBar_2014/B0B0bar_FSR_tauptaum.dec new file mode 100644 index 0000000..3ec768a --- /dev/null +++ b/BaBar_2014/B0B0bar_FSR_tauptaum.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: anti-B0 -> tau+ tau-, B0->X # +# FSR + SLL # +# + cc # +# # +# Author: Valerie H. & Urs L. # +# Date: Jan 22, 2002 # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 tau+ tau- PHOTOS SLL; +Enddecay +# +Decay Myanti-B0 +1.0000 tau+ tau- PHOTOS SLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_HHHHP.dec b/BaBar_2014/B0B0bar_HHHHP.dec new file mode 100644 index 0000000..5d68ec7 --- /dev/null +++ b/BaBar_2014/B0B0bar_HHHHP.dec @@ -0,0 +1,48 @@ +################################################### +# # +# Decay: B0 -> h+ h+ h- h- pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 pi+ pi- pi+ pi- pi0 PHSP; +1.0000 K+ pi- pi+ pi- pi0 PHSP; +1.0000 pi+ K- pi+ pi- pi0 PHSP; + +1.0000 K+ K- pi+ pi- pi0 PHSP; +1.0000 K+ pi- K+ pi- pi0 PHSP; +1.0000 K- pi+ K- pi+ pi0 PHSP; + +#1.0000 K+ K- K+ pi- pi0 PHSP; +#1.0000 K+ K- pi+ K- pi0 PHSP; +#1.0000 K+ K- K+ K- pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 pi+ pi- pi+ pi- pi0 PHSP; +1.0000 K+ pi- pi+ pi- pi0 PHSP; +1.0000 pi+ K- pi+ pi- pi0 PHSP; + +1.0000 K+ K- pi+ pi- pi0 PHSP; +1.0000 K+ pi- K+ pi- pi0 PHSP; +1.0000 K- pi+ K- pi+ pi0 PHSP; + +#1.0000 K+ K- K+ pi- pi0 PHSP; +#1.0000 K+ K- pi+ K- pi0 PHSP; +#1.0000 K+ K- K+ K- pi0 PHSP; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_HHPPP.dec b/BaBar_2014/B0B0bar_HHPPP.dec new file mode 100644 index 0000000..1397b93 --- /dev/null +++ b/BaBar_2014/B0B0bar_HHPPP.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: B0 -> h+ h+ pi0 pi0 pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 pi+ pi- pi0 pi0 pi0 PHSP; +1.0000 K+ pi- pi0 pi0 pi0 PHSP; +1.0000 pi+ K- pi0 pi0 pi0 PHSP; + +1.0000 K+ K- pi0 pi0 pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 pi+ pi- pi0 pi0 pi0 PHSP; +1.0000 K+ pi- pi0 pi0 pi0 PHSP; +1.0000 pi+ K- pi0 pi0 pi0 PHSP; + +1.0000 K+ K- pi0 pi0 pi0 PHSP; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_Inclusivetap.dec b/BaBar_2014/B0B0bar_Inclusivetap.dec new file mode 100644 index 0000000..29da879 --- /dev/null +++ b/BaBar_2014/B0B0bar_Inclusivetap.dec @@ -0,0 +1,30 @@ +################################################################### +# Inclusive etap production from B's # +# Author: Y.Karyotakis 22 Oct 2000 # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +Alias MyB0B anti-B0 +Alias MyB0 B0 +# + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay + +Decay eta' +0.3622 pi+ pi- eta PHSP; +0.6378 gamma rho0 PHSP; +Enddecay +# + +Decay eta +0.63 gamma gamma PHSP; +0.37 pi+ pi- pi0 PHSP; +Enddecay +# + + +End diff --git a/BaBar_2014/B0B0bar_JPsiKs_AllJpsi.dec b/BaBar_2014/B0B0bar_JPsiKs_AllJpsi.dec new file mode 100644 index 0000000..73acedc --- /dev/null +++ b/BaBar_2014/B0B0bar_JPsiKs_AllJpsi.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> X |->pi+pi- # +# # +# # +# + cc # +# # +# Author: E. Varnes # +# Created: 14/Aug/01 # +# Mail: VARNES@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 J/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 J/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiD0.dec b/BaBar_2014/B0B0bar_JpsiD0.dec new file mode 100644 index 0000000..48fd4b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiD0.dec @@ -0,0 +1,34 @@ +################################################################### +# B0~ --> J/psi D0 B0 --> Generic # +# | | # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# Author: Y.Karyotakis 3/6/01 # +################################################################### +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJ/psi anti-D0 SVS ; +Enddecay +# +Decay Myanti-B0 +1.000 MyJ/psi D0 SVS; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiD0_Kpi.dec b/BaBar_2014/B0B0bar_JpsiD0_Kpi.dec new file mode 100644 index 0000000..aa611f7 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiD0_Kpi.dec @@ -0,0 +1,51 @@ +################################################################### +# B0 --> J/psi D0 B0 --> Generic # +# | | # +# | |-> K pi # +# |-->mu+mu-/e+e- # +# # +# # +# Author: D. Bernard 27 Nov 02 # +################################################################### +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJ/psi Myanti-D0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJ/psi MyD0 SVS; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +Decay MyD0 +0.5000 MyK_S0 pi0 PHSP; +0.5000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.5000 MyK_S0 pi0 PHSP; +0.5000 K+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiDpi.dec b/BaBar_2014/B0B0bar_JpsiDpi.dec new file mode 100644 index 0000000..76f383e --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiDpi.dec @@ -0,0 +1,37 @@ +################################################################### +# B0~ --> J/psi D+ pi- B0 --> Generic # +# | # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# Author: Y.Karyotakis 4/5/01 # +################################################################### +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJ/psi D- pi+ PHSP ; +Enddecay +# +Decay Myanti-B0 +1.000 MyJ/psi D+ pi- PHSP ; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiDpiMod.dec b/BaBar_2014/B0B0bar_JpsiDpiMod.dec new file mode 100644 index 0000000..1127dac --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiDpiMod.dec @@ -0,0 +1,39 @@ +################################################################### +# B0~ --> J/psi D+ pi- B0 --> Generic # +# | # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# Author: D. Bernard 27 Nov 02 # +################################################################### +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +0.500 MyJ/psi D- pi+ PHSP ; +0.500 MyJ/psi anti-D0 pi0 PHSP ; +Enddecay +# +Decay Myanti-B0 +0.500 MyJ/psi D+ pi- PHSP ; +0.500 MyJ/psi D0 pi0 PHSP ; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiDstar.dec b/BaBar_2014/B0B0bar_JpsiDstar.dec new file mode 100644 index 0000000..5318204 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiDstar.dec @@ -0,0 +1,37 @@ +################################################################### +# B0~ --> J/psi D* B0 --> Generic # +# | | # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# Author: Y.Karyotakis 4/5/01 # +################################################################### +# +Define beta 0.39 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJ/psi anti-D*0 PHSP ; +Enddecay +# +Decay Myanti-B0 +1.000 MyJ/psi anti-D*0 PHSP ; +Enddecay +# +Decay MyJ/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiEta.dec b/BaBar_2014/B0B0bar_JpsiEta.dec new file mode 100644 index 0000000..8eb7edf --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiEta.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi eta, B0 -> X # +# |-> e+e- |->gamma gamma # +# |-> mu+mu- |->pi+ pi- pi0 # +# # +# # +# Author: Jinlong Zhang # +############################################################ +# +Alias MyB0 B0 +Alias MyJ/psi J/psi +Alias MyEta eta +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyEta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyEta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- VLL; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_JpsiEtaKs.dec b/BaBar_2014/B0B0bar_JpsiEtaKs.dec new file mode 100644 index 0000000..72e881d --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiEtaKs.dec @@ -0,0 +1,48 @@ +################################################################### +# B0 -> J/psi Eta Ks, B0bar -> X +# | | | +# | | -> Pi+ Pi- +# | | +# | -> Gamma Gamma (50%), Pi+ Pi- Pi0 (50%) +# | +# -> e+e- (50%), mu+mu- (50%) +# +# Eric Eckhart +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyEta eta +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyEta MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyEta MyK_S0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiEtaP.dec b/BaBar_2014/B0B0bar_JpsiEtaP.dec new file mode 100644 index 0000000..6e34dab --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiEtaP.dec @@ -0,0 +1,44 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi eta', B0 -> X # +# |-> e+e- |->pi+ pi- eta # +# |-> mu+mu- +# # +# # +# Author: Jinlong Zhang # +############################################################ +# +Alias MyB0 B0 +Alias MyJ/psi J/psi +Alias MyEtap eta' +Alias MyEta eta +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyEtap SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyEtap SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- VLL; +Enddecay +# +Decay MyEtap +0.5000 pi+ pi- MyEta PHSP; +0.5000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiEtaPKs.dec b/BaBar_2014/B0B0bar_JpsiEtaPKs.dec new file mode 100644 index 0000000..ac3460e --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiEtaPKs.dec @@ -0,0 +1,56 @@ +################################################################### +# B0 -> J/psi Eta' Ks, B0bar -> X +# | | | +# | | -> Pi+ Pi- +# | | +# | -> Rho0 Gamma (50%), Eta Pi+ Pi- (50%) +# | | +# | -> Gamma Gamma +# | +# -> e+e- (50%), mu+mu- (50%) +# +# Eric Eckhart +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyEta eta +Alias MyEtaP eta' +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyEtaP MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyEtaP MyK_S0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyEtaP +0.5000 pi+ pi- MyEta PHSP; +0.5000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiEta_2.dec b/BaBar_2014/B0B0bar_JpsiEta_2.dec new file mode 100644 index 0000000..eff07ce --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiEta_2.dec @@ -0,0 +1,43 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi eta, B0 -> X # +# |-> e+e- |->gamma gamma # +# |-> mu+mu- |->pi+ pi- pi0 # +# # +# # +# Author: Jinlong Zhang # +############################################################ +# +Alias MyB0 B0 +Alias MyJ/psi J/psi +Alias MyEta eta +Alias Myanti-B0 anti-B0 +Define dm .464e12 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyEta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyEta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- VLL; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_JpsiEtap.dec b/BaBar_2014/B0B0bar_JpsiEtap.dec new file mode 100644 index 0000000..430d49e --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiEtap.dec @@ -0,0 +1,44 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi eta', B0 -> X # +# |-> e+e- |->pi+ pi- eta # +# |-> mu+mu- +# # +# # +# Author: Jinlong Zhang # +############################################################ +# +Alias MyB0 B0 +Alias MyJ/psi J/psi +Alias MyEtap eta' +Alias MyEta eta +Alias Myanti-B0 anti-B0 +Define dm .464e12 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyEtap SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyEtap SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- VLL; +Enddecay +# +Decay MyEtap +1.0000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiKL.dec b/BaBar_2014/B0B0bar_JpsiKL.dec new file mode 100644 index 0000000..8b9820b --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKL.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0L, B0 -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: G. London # +# Mail: GLONDON@SLAC.STANFORD.EDU +# Created: 1/February/99 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKL_dgog=0.2_qop=1.04_z=0.dec b/BaBar_2014/B0B0bar_JpsiKL_dgog=0.2_qop=1.04_z=0.dec new file mode 100644 index 0000000..a7ebfc5 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKL_dgog=0.2_qop=1.04_z=0.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0L, B0 -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Non Standard Model # +# Delta(Gamma)=0.2 # +# |q/p|=1.04 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define dgog 0.2 +Define absqoverp -1.04 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqoverp -0.7761517725 +# arg(q/p) is consistent with sin2b=0.7 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqoverp; +Enddecay +# +# Phase difference between Af and Afbar should be 0 to enforce the CP eigenvalue (+1) +Decay MyB0 +1.0000 MyJ/psi K_L0 SVS_CPLH dm dgog absqoverp argqoverp 1.0 0.0 1.0 0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi K_L0 SVS_CPLH dm dgog absqoverp argqoverp 1.0 0.0 1.0 0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKL_dgog=0.4_qop=1.08_z=0.dec b/BaBar_2014/B0B0bar_JpsiKL_dgog=0.4_qop=1.08_z=0.dec new file mode 100644 index 0000000..e5402bf --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKL_dgog=0.4_qop=1.08_z=0.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0L, B0 -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Non Standard Model # +# Delta(Gamma)=0.4 # +# |q/p|=1.08 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define dgog 0.4 +Define absqoverp -1.08 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqoverp -0.7783059311 +# arg(q/p) is consistent with sin2b=0.7 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqoverp; +Enddecay +# +# Phase difference between Af and Afbar should be 0 to enforce the CP eigenvalue (+1) +Decay MyB0 +1.0000 MyJ/psi K_L0 SVS_CPLH dm dgog absqoverp argqoverp 1.0 0.0 1.0 0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi K_L0 SVS_CPLH dm dgog absqoverp argqoverp 1.0 0.0 1.0 0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_00.dec b/BaBar_2014/B0B0bar_JpsiKS_00.dec new file mode 100644 index 0000000..569f559 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_00.dec @@ -0,0 +1,43 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi0pi0 # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi0 pi0 PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_00_dgog=0.2_qop=1.04_z=0.dec b/BaBar_2014/B0B0bar_JpsiKS_00_dgog=0.2_qop=1.04_z=0.dec new file mode 100644 index 0000000..782fdf3 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_00_dgog=0.2_qop=1.04_z=0.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi0pi0 # +# |-> mu+mu- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.2 # +# |q/p|=1.04 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define dgog 0.2 +Define absqop -1.04 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7761517725 +# arg(q/p) is consistent with sin2b=0.7 +# +# dGamma/Gamma definition is opposite between VSS_BMIX & SVS_CPLH +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi0 pi0 PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_00_dgog=0.4_qop=1.08_z=0.dec b/BaBar_2014/B0B0bar_JpsiKS_00_dgog=0.4_qop=1.08_z=0.dec new file mode 100644 index 0000000..40257fd --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_00_dgog=0.4_qop=1.08_z=0.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi0pi0 # +# |-> mu+mu- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.4 # +# |q/p|=1.08 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define dgog 0.4 +Define absqop -1.08 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7783059311 +# arg(q/p) is consistent with sin2b=0.7 +# +# dGamma/Gamma definition is opposite between VSS_BMIX & SVS_CPLH +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi0 pi0 PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_direct_0803.dec b/BaBar_2014/B0B0bar_JpsiKS_direct_0803.dec new file mode 100644 index 0000000..fa240b8 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_direct_0803.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 0.15 +Define minusTwoBeta -0.30 +Define lambda 0.8 +# +# +Decay Upsilon(4S) +0.557 MyB0 anti-B0 VSS_MIX dm; +0.443 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CP beta dm -1 1.0 0.0 lambda 0.0 ; +Enddecay + +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_direct_0807.dec b/BaBar_2014/B0B0bar_JpsiKS_direct_0807.dec new file mode 100644 index 0000000..76aea9d --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_direct_0807.dec @@ -0,0 +1,44 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define lambda 0.8 +# +# +Decay Upsilon(4S) +0.557 MyB0 anti-B0 VSS_MIX dm; +0.443 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CP beta dm -1 1.0 0.0 lambda 0.0 ; +Enddecay + +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_direct_1203.dec b/BaBar_2014/B0B0bar_JpsiKS_direct_1203.dec new file mode 100644 index 0000000..fef158a --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_direct_1203.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 0.15 +Define minusTwoBeta -0.30 +Define lambda 1.2 +# +# +Decay Upsilon(4S) +0.430 MyB0 anti-B0 VSS_MIX dm; +0.570 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CP beta dm -1 1.0 0.0 lambda 0.0 ; +Enddecay + +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_direct_1207.dec b/BaBar_2014/B0B0bar_JpsiKS_direct_1207.dec new file mode 100644 index 0000000..cfd7c28 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_direct_1207.dec @@ -0,0 +1,44 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define lambda 1.2 +# +# +Decay Upsilon(4S) +0.430 MyB0 anti-B0 VSS_MIX dm; +0.570 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CP beta dm -1 1.0 0.0 lambda 0.0 ; +Enddecay + +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_pm.dec b/BaBar_2014/B0B0bar_JpsiKS_pm.dec new file mode 100644 index 0000000..7d3fc41 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_pm.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_pm_0.1.dec b/BaBar_2014/B0B0bar_JpsiKS_pm_0.1.dec new file mode 100644 index 0000000..99f6342 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_pm_0.1.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 0.05 +Define minusTwoBeta -0.10 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_pm_0.3.dec b/BaBar_2014/B0B0bar_JpsiKS_pm_0.3.dec new file mode 100644 index 0000000..0d3e05d --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_pm_0.3.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 0.15 +Define minusTwoBeta -0.30 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_pm_0.5.dec b/BaBar_2014/B0B0bar_JpsiKS_pm_0.5.dec new file mode 100644 index 0000000..5d1b092 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_pm_0.5.dec @@ -0,0 +1,49 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 0.26 +Define minusTwoBeta -0.52 + +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_pm_0.9.dec b/BaBar_2014/B0B0bar_JpsiKS_pm_0.9.dec new file mode 100644 index 0000000..bb0af09 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_pm_0.9.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified: G. London 01/Feb/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 0.56 +Define minusTwoBeta -1.12 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_pm_dgog=0.2_qop=1.04_z=0.dec b/BaBar_2014/B0B0bar_JpsiKS_pm_dgog=0.2_qop=1.04_z=0.dec new file mode 100644 index 0000000..8b11514 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_pm_dgog=0.2_qop=1.04_z=0.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.2 # +# |q/p|=1.04 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define dgog 0.2 +Define absqop -1.04 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7761517725 +# arg(q/p) is consistent with sin2b=0.7 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_pm_dgog=0.4_qop=1.08_z=0.dec b/BaBar_2014/B0B0bar_JpsiKS_pm_dgog=0.4_qop=1.08_z=0.dec new file mode 100644 index 0000000..08042b3 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_pm_dgog=0.4_qop=1.08_z=0.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.4 # +# |q/p|=1.08 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define dgog 0.4 +Define absqop -1.08 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7783059311 +# arg(q/p) is consistent with sin2b=0.7 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKS_ppbar.dec b/BaBar_2014/B0B0bar_JpsiKS_ppbar.dec new file mode 100644 index 0000000..d664fd3 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKS_ppbar.dec @@ -0,0 +1,43 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi K0s, B0 -> X # +# | | # +# `-> ppbar `->pi+pi- # +# # +# + cc # +# # +# Author: Dieter Best # +# Created: 17.July.2002 # +# Mail: best@slac.stanford.edu # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +1.000 p+ anti-p- VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_00_sp3.dec b/BaBar_2014/B0B0bar_JpsiKstar_00_sp3.dec new file mode 100644 index 0000000..6260f5a --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_00_sp3.dec @@ -0,0 +1,68 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi0pi0 # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# Author: R. Faccini 25 Feb 00 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +#Define the transversity amplitudes +#supposed to be CLEO measurement +Define Aplus 0.566 +Define Azero 1.02 +Define Aminus 0.4 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJpsi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK_S0 +1.0000 pi0 pi0 PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_00_sp3_RunIPol.dec b/BaBar_2014/B0B0bar_JpsiKstar_00_sp3_RunIPol.dec new file mode 100644 index 0000000..0272721 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_00_sp3_RunIPol.dec @@ -0,0 +1,69 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi0pi0 # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# Author: R. Faccini 25 Feb 00 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +# +#Define the transversity amplitudes +# put the values measured by Babar (see BAD #35 and #154) +Define Aplus 0.490 +Define Azero 1.10 +Define Aminus 0.4 +# +Define phAplus 2.5 +Define phAzero 0.0 +Define phAminus -0.17 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJpsi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK_S0 +1.0000 pi0 pi0 PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3.dec b/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3.dec new file mode 100644 index 0000000..76ce5f3 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3.dec @@ -0,0 +1,66 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0L pi0 # +# | # +# | # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# Author: J. Weatherall 26/1/99 # +# modified: G. London 1/2/99 # +# modified: D. Wright 2/12/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +#Define the transversity amplitudes +#supposed to be CLEO measurement +Define Aplus 0.566 +Define Azero 1.02 +Define Aminus 0.4 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJpsi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K*0 --> K0L pi0 (100%) +Decay MyKstar0 +1.0000 K_L0 pi0 VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 K_L0 pi0 VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3_865c.dec b/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3_865c.dec new file mode 100644 index 0000000..d0305e5 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3_865c.dec @@ -0,0 +1,66 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0L pi0 # +# | # +# | # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# Author: J. Weatherall 26/1/99 # +# modified: G. London 1/2/99 # +# modified: D. Wright 2/12/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# modified: D. Lange 08/15/2000 - fixed CP of psi Kstar final state +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +Define beta 0.39 +# +#Define the transversity amplitudes +#supposed to be CLEO measurement +Define Aplus 0.566 +Define Azero 1.02 +Define Aminus 0.4 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm -1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm -1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJpsi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K*0 --> K0L pi0 (100%) +Decay MyKstar0 +1.0000 K_L0 pi0 VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 K_L0 pi0 VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3_RunIPol.dec b/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3_RunIPol.dec new file mode 100644 index 0000000..463e2fe --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_KLpi_sp3_RunIPol.dec @@ -0,0 +1,66 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0L pi0 # +# | # +# | # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# Author: J. Weatherall 26/1/99 # +# modified: G. London 1/2/99 # +# modified: D. Wright 2/12/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +#Define the transversity amplitudes +# put the values measured by Babar (see BAD #35 and #154) +Define Aplus 0.490 +Define Azero 1.10 +Define Aminus 0.4 +# +Define phAplus 2.5 +Define phAzero 0.0 +Define phAminus -0.17 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJpsi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K*0 --> K0L pi0 (100%) +Decay MyKstar0 +1.0000 K_L0 pi0 VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 K_L0 pi0 VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_KpPim_RunIpIIPol.dec b/BaBar_2014/B0B0bar_JpsiKstar_KpPim_RunIpIIPol.dec new file mode 100644 index 0000000..af41557 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_KpPim_RunIpIIPol.dec @@ -0,0 +1,62 @@ +################################################################### +# B0~ --> J/psi K*0~ B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# author : Marc Verderi 06/05/2004 # +# made from original decay file: # +# B0B0bar_JpsiKstar_chgd_RunIPol.dec # +################################################################### +# +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiKstar_KsPi0_RunIpIIPol.dec b/BaBar_2014/B0B0bar_JpsiKstar_KsPi0_RunIpIIPol.dec new file mode 100644 index 0000000..cd41217 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_KsPi0_RunIpIIPol.dec @@ -0,0 +1,76 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# author : Marc Verderi 06/05/2004 # +# Made from original decay file: # +# B0B0bar_JpsiKstar_RunIPol.dec # +################################################################### +# +# +# sin2beta = 0.731: (world average at that time) +# ----------------- +Define beta 0.41 +# +# Define the transversity amplitudes: +# ----------------------------------- +# Values measured by Babar (BAD#673/752) +Define Aplus 0.4517 +Define Azero 1.0640 +Define Aminus 0.4796 +# +Define phAplus 3.55 +Define phAzero 0.00 +Define phAminus 2.96 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Note: B0 and B0bar must be given the same amplitudes +# -namely the ones of a B0- because this is the SVV_CP +# model of EvtGen which takes care of flipping the +# relevant signs, using the other B flavor. +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay MyJpsi +0.500 mu+ mu- PHOTOS VLL; +0.500 e+ e- PHOTOS VLL; +Enddecay +# +Decay MyKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyantiKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_RunIPol.dec b/BaBar_2014/B0B0bar_JpsiKstar_RunIPol.dec new file mode 100644 index 0000000..85f141d --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_RunIPol.dec @@ -0,0 +1,69 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# Author: J. Weatherall 26/1/99 # +# modified: G. London 1/2/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +#Define the transversity amplitudes +# put the values measured by Babar (see BAD #35 and #154) +Define Aplus 0.490 +Define Azero 1.10 +Define Aminus 0.4 +# +Define phAplus 2.5 +Define phAzero 0.0 +Define phAminus -0.17 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJpsi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiKstar_chgd_RunIPol.dec b/BaBar_2014/B0B0bar_JpsiKstar_chgd_RunIPol.dec new file mode 100644 index 0000000..eb13e29 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_chgd_RunIPol.dec @@ -0,0 +1,64 @@ +################################################################### +# B0~ --> J/psi K*0~ B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# Author: ? # +# Modified: G.london 10/Feb/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiKstar_chgd_dgog=0.2_qop=1.04_z=0.dec b/BaBar_2014/B0B0bar_JpsiKstar_chgd_dgog=0.2_qop=1.04_z=0.dec new file mode 100644 index 0000000..7cc187a --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_chgd_dgog=0.2_qop=1.04_z=0.dec @@ -0,0 +1,68 @@ +################################################################### +# B0~ --> J/psi K*0~ B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.2 # +# |q/p| = 1.04 # +# # +# Created from B0B0bar_JpsiKstar_chgd_RunIPol.dec # +# Author: F. Sandrelli # +# Created: 20/March/02 # +################################################################### +# +Define dgog 0.2 +Define absqop 1.04 +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiKstar_chgd_dgog=0.4_qop=1.08_z=0.dec b/BaBar_2014/B0B0bar_JpsiKstar_chgd_dgog=0.4_qop=1.08_z=0.dec new file mode 100644 index 0000000..87ced00 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_chgd_dgog=0.4_qop=1.08_z=0.dec @@ -0,0 +1,68 @@ +################################################################### +# B0~ --> J/psi K*0~ B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.4 # +# |q/p| = 1.08 # +# # +# Created from B0B0bar_JpsiKstar_chgd_RunIPol.dec # +# Author: F. Sandrelli # +# Created: 20/March/02 # +################################################################### +# +Define dgog 0.4 +Define absqop 1.08 +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiKstar_chgd_sp3.dec b/BaBar_2014/B0B0bar_JpsiKstar_chgd_sp3.dec new file mode 100644 index 0000000..bae12a0 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_chgd_sp3.dec @@ -0,0 +1,69 @@ +################################################################### +# B0~ --> J/psi K*0~ B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# mode a5: CLEO values # +# # +# + cc # +# # +# Author: ? # +# Modified: G.london 10/Feb/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiKstar_ppbar_chgd.dec b/BaBar_2014/B0B0bar_JpsiKstar_ppbar_chgd.dec new file mode 100644 index 0000000..a896b20 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_ppbar_chgd.dec @@ -0,0 +1,66 @@ +################################################################### +# B0~ --> J/psi K*0 B0 --> Generic # +# | | # +# | |-->K- pi+ # +# | # +# |-->p+p- # +# # +# mode a5: CLEO values # +# # +# + cc # +# # +# Author: ? # +# Modified: T. Hrynova 30 June 03 # +################################################################### +# +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +Decay MyJpsi +1.000 p+ anti-p- VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiKstar_sp3.dec b/BaBar_2014/B0B0bar_JpsiKstar_sp3.dec new file mode 100644 index 0000000..30bc7c3 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiKstar_sp3.dec @@ -0,0 +1,69 @@ +################################################################### +# B0~ --> J/psi K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# +cc # +# # +# Author: J. Weatherall 26/1/99 # +# modified: G. London 1/2/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +#Define the transversity amplitudes +#supposed to be CLEO measurement +Define Aplus 0.566 +Define Azero 1.02 +Define Aminus 0.4 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJpsi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiOmega.dec b/BaBar_2014/B0B0bar_JpsiOmega.dec new file mode 100644 index 0000000..0b05147 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiOmega.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi Omega, B0 -> X # +# |-> e+e- |->pi+pi-pi0 # +# |-> mu+mu- |->pi0 gamma # +# |->pi+ pi- # +# + cc # +# # +# Author: J. Blouw # +# Created: 19/September/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyOmega omega +Define beta 0.39 +#Define the transversity amplitudes +#supposed to be CLEO measurement +Define Aplus 0.566 +Define Azero 1.02 +Define Aminus 0.4 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyOmega SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyOmega SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0850 pi0 gamma VSP_PWAVE; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiPhi.dec b/BaBar_2014/B0B0bar_JpsiPhi.dec new file mode 100644 index 0000000..43a2a6a --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPhi.dec @@ -0,0 +1,44 @@ +################################################################### +# B0 -> J/psi Phi +# +# Jinlong Zhang +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyPhi phi + +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# + +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay + +Decay MyB0 +1.000 MyJpsi MyPhi PHSP; +Enddecay +# + +Decay Myanti-B0 +1.000 MyJpsi MyPhi PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPhiKs.dec b/BaBar_2014/B0B0bar_JpsiPhiKs.dec new file mode 100644 index 0000000..0052088 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPhiKs.dec @@ -0,0 +1,41 @@ +################################################################### +# B0 -> J/psi Phi Ks, B0bar -> X +# +# Jinlong Zhang +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyPhi MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyPhi MyK_S0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPhi_LongPolar.dec b/BaBar_2014/B0B0bar_JpsiPhi_LongPolar.dec new file mode 100644 index 0000000..7b24271 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPhi_LongPolar.dec @@ -0,0 +1,43 @@ +################################################################### +# B0 -> J/psi Phi +# +# Eric Eckhart +################################################################### +# +Define Aplus 0.0 +Define Azero 1.0 +Define Aminus 0.0 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +# Alias particles for specific decays +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyPhi SVV_HELAMP Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyPhi SVV_HELAMP Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPhi_TransPolar.dec b/BaBar_2014/B0B0bar_JpsiPhi_TransPolar.dec new file mode 100644 index 0000000..e594071 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPhi_TransPolar.dec @@ -0,0 +1,43 @@ +################################################################### +# B0 -> J/psi Phi +# +# Jinlong Zhang +################################################################### +# +Define Aplus 1.0 +Define Azero 0.0 +Define Aminus 1.0 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +# Alias particles for specific decays +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyPhi SVV_HELAMP Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyPhi SVV_HELAMP Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPi0.dec b/BaBar_2014/B0B0bar_JpsiPi0.dec new file mode 100644 index 0000000..a734a3b --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: R.Faccini 03/May/00 # +# Mail: RFACCINI@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_JpsiPi0_0.0.dec b/BaBar_2014/B0B0bar_JpsiPi0_0.0.dec new file mode 100644 index 0000000..6b3afe6 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_0.0.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A.Roodman 15/May/02 # +# Mail: roodman@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta 0.00 +Define minusTwoBeta 0.00 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_JpsiPi0_0.35.dec b/BaBar_2014/B0B0bar_JpsiPi0_0.35.dec new file mode 100644 index 0000000..83e648e --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_0.35.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A.Roodman 15/May/02 # +# Mail: roodman@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta 0.18 +Define minusTwoBeta -0.36 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_JpsiPi0_0.4_costerm.dec b/BaBar_2014/B0B0bar_JpsiPi0_0.4_costerm.dec new file mode 100644 index 0000000..cb8555e --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_0.4_costerm.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Roodman and Aron Soha +# aCos = 0.4, aSin = -0.79 +# Mail: roodman@SLAC.STANFORD.EDU +# soha@slac.stanford.edu +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta 0.39 +Define minustwobeta -0.78 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.8367 0.39 0.5477 0.1228; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.8367 0.39 0.5477 0.1228; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPi0_0.7_costerm.dec b/BaBar_2014/B0B0bar_JpsiPi0_0.7_costerm.dec new file mode 100644 index 0000000..5e4e366 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_0.7_costerm.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Roodman +# sin2beta = 0.7, gamma=60deg, delta(strong phase)=30deg, +# r=P/T = 1 +# Mail: roodman@SLAC.STANFORD.EDU 15/May/02 +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define minustwobeta -0.78 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.591 0.785 0.807 -0.262; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.591 0.785 0.807 -0.262; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPi0_0.8_costerm.dec b/BaBar_2014/B0B0bar_JpsiPi0_0.8_costerm.dec new file mode 100644 index 0000000..8b63967 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_0.8_costerm.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Roodman and Aron Soha +# aCos = 0.8, aSin = -0.52 +# Mail: roodman@SLAC.STANFORD.EDU +# soha@slac.stanford.edu +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta 0.39 +Define minustwobeta -0.78 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.9487 0.39 0.3162 0.1228; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.9487 0.39 0.3162 0.1228; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPi0_m0.35.dec b/BaBar_2014/B0B0bar_JpsiPi0_m0.35.dec new file mode 100644 index 0000000..162c0e5 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_m0.35.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A.Roodman 15/May/02 # +# Mail: roodman@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta -0.18 +Define minusTwoBeta 0.36 + +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_JpsiPi0_m0.3_costerm.dec b/BaBar_2014/B0B0bar_JpsiPi0_m0.3_costerm.dec new file mode 100644 index 0000000..13c9d45 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_m0.3_costerm.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Authors: A. Roodman and Aron Soha +# aCos = -0.3, aSin = -0.92 +# Mail: roodman@SLAC.STANFORD.EDU 15/May/02 +# soha@slac.stanford.edu 04/Nov/02 (updated model) +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta 0.39 +Define minustwobeta -0.78 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.591 0.785 0.807 -0.262; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.591 0.785 0.807 -0.262; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPi0_m0.7.dec b/BaBar_2014/B0B0bar_JpsiPi0_m0.7.dec new file mode 100644 index 0000000..b027ee7 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_m0.7.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A.Roodman 15/May/02 # +# Mail: roodman@SLAC.STANFORD.EDU +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta -0.39 +Define minusTwoBeta 0.78 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_JpsiPi0_m0.8_costerm.dec b/BaBar_2014/B0B0bar_JpsiPi0_m0.8_costerm.dec new file mode 100644 index 0000000..0d4eee7 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPi0_m0.8_costerm.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> J/psi pi0, B0 -> X # +# |-> e+e- |->gammagamma # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: A. Roodman and Aron Soha +# aCos = -0.8, aSin = -0.6 +# Mail: roodman@SLAC.STANFORD.EDU +# soha@slac.stanford.edu +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Define beta 0.39 +Define minustwobeta -0.78 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.3162 0.3925 0.9487 -0.3983; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi pi0 SSD_CP dm 0.0 1.0 minustwobeta 0.3162 0.3925 0.9487 -0.3983; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsiPiPi_nonres.dec b/BaBar_2014/B0B0bar_JpsiPiPi_nonres.dec new file mode 100644 index 0000000..d58d838 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiPiPi_nonres.dec @@ -0,0 +1,78 @@ +################################################################### +# B0~ --> J/psi pi- pi+ (n.r) B0 --> Generic # +# | # +# | # +# | # +# |-->e+e-/mu+mu- # +# # +# # +# # +# + cc # +# # +# Author: Jamie Boyd 16 Jan 2001 # +################################################################### +# + +# Non resonant mode (for comparison with the rho0 mode) + +# +# Alias particles for specific decays +Alias MyB0 B0 +# +# +Define beta 0.39 +# +Alias Myanti-B0 anti-B0 +Alias MyPiPlus pi+ +Alias MyPiMinus pi- +Alias MyJpsi J/psi + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyPiPlus MyPiMinus PHSP; +Enddecay +# + +# +Decay Myanti-B0 +1.000 MyJpsi MyPiPlus MyPiMinus PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_JpsiRho0.dec b/BaBar_2014/B0B0bar_JpsiRho0.dec new file mode 100644 index 0000000..10f512c --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiRho0.dec @@ -0,0 +1,93 @@ +################################################################### +# B0~ --> J/psi rho0 B0 --> Generic # +# | | # +# | |-->pi- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# helicity amplitudes all set as 1 # +# # +# + cc # +# # +# Author: Jamie Boyd 25 Jul 2000 # +################################################################### +# +# +#Define dm 0.464e12 +# this is ripped from the j/psi kstar0 mode +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 + +# put all the amplitudes in the same for now ?? +# not sure what they should be yet. +Define Hplus 0.577 +Define Hzero 0.577 +Define Hminus 0.577 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyRho0 rho0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyRho0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyRho0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_JpsiRho0_0polarisation.dec b/BaBar_2014/B0B0bar_JpsiRho0_0polarisation.dec new file mode 100644 index 0000000..d70dea8 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiRho0_0polarisation.dec @@ -0,0 +1,88 @@ +################################################################### +# B0~ --> J/psi rho0 B0 --> Generic # +# | | # +# | |-->pi- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# helicity amplitudes to be equal # +# ie. not polarised # +# + cc # +# # +# Author: Jamie Boyd 14 March 2001 # +################################################################### +# +# + +# +# Alias particles for specific decays +Alias MyB0 B0 +# +Define beta 0.39 +# +#Define the transversity amplitudes +#this means non-polarised as A0 = A0/sqrt(2) - confusing... +Define Aplus 0.577 +Define Azero 0.816 +Define Aminus 0.577 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# + +Alias Myanti-B0 anti-B0 +Alias MyRho0 rho0 +Alias MyJpsi J/psi + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyRho0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyRho0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_JpsiRho0_Kstarpolarisation.dec b/BaBar_2014/B0B0bar_JpsiRho0_Kstarpolarisation.dec new file mode 100644 index 0000000..cd8aa94 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiRho0_Kstarpolarisation.dec @@ -0,0 +1,88 @@ +################################################################### +# B0~ --> J/psi rho0 B0 --> Generic # +# | | # +# | |-->pi- pi+ # +# | # +# |-->e+e-/mu+mu- # +# # +# helicity amplitudes set to K* ones # +# # +# + cc # +# # +# Author: Jamie Boyd 25 Jul 2000 # +################################################################### +# +# + +# +# Alias particles for specific decays +Alias MyB0 B0# +# +Define beta 0.39 +# +#Define the transversity amplitudes +#supposed to be CLEO measurement of the K* +Define Aplus 0.566 +Define Azero 1.02 +Define Aminus 0.4 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# + +Alias Myanti-B0 anti-B0 +Alias MyRho0 rho0 +Alias MyJpsi J/psi + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyRho0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyRho0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_JpsiX_EtaCG_modes.dec b/BaBar_2014/B0B0bar_JpsiX_EtaCG_modes.dec new file mode 100644 index 0000000..8b88bcb --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsiX_EtaCG_modes.dec @@ -0,0 +1,54 @@ +################################################################### +# J/psi X # +# | # +# |-> EtaC gam # +# | # +# |-> 4K # +# |-> 2phi # +# |-> 2K2pi # +# |-> 4pi # +# |-> KsKpi # +# |-> K+K-pi0 # +# |-> eta2pi # +# # +# with equal weights to study each channel # +# # +# Author: G. London 26/5/2000 # +# Adaptation: R.Faccini 05/26/00 +# # +# adapted from .dec for J/psi->L+L- # +# Author: ? # +# Corrections: G.London 1/2/99 # +################################################################### +Alias MyEta_C eta_c +Alias MyPhi phi +Alias MyEta eta +Alias MyK_S0 K_S0 + +Decay J/psi +0.013 MyEta_C gamma VSP_PWAVE; +Enddecay +Decay MyEta_C +1.00 K+ K- K+ K- PHSP; +1.00 MyPhi MyPhi PHSP; +1.00 K+ pi- K- pi+ PHSP; +1.00 pi+ pi- pi+ pi- PHSP; +1.00 MyK_S0 K+ pi- PHSP; +1.00 MyK_S0 K- pi+ PHSP; +1.00 K+ K- pi0 PHSP; +1.00 MyEta pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyEta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Jpsigamma.dec b/BaBar_2014/B0B0bar_Jpsigamma.dec new file mode 100644 index 0000000..fec3710 --- /dev/null +++ b/BaBar_2014/B0B0bar_Jpsigamma.dec @@ -0,0 +1,42 @@ +############################################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | `-> Jpsi gamma # +# | | # +# | `-->e+e-/mu+mu- # +# | # +# `-> X # +# # +# # +# Author: Dieter Best (UC Irvine) best@slac.stanford.edu # +# Date : 13.July.2001 # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +Alias myJpsi J/psi +# +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 myJpsi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myantiB0 +1.000 myJpsi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Jpsim3pimnoint_KS_pm.dec b/BaBar_2014/B0B0bar_Jpsim3pimnoint_KS_pm.dec new file mode 100644 index 0000000..da2d746 --- /dev/null +++ b/BaBar_2014/B0B0bar_Jpsim3pimnoint_KS_pm.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: anti-B0 -> Jpsi K0s, B0 -> X # +# | |-> pi+pi- # +# -> pi+pi-pi0 # +# # +# + cc # +# # +# Jpsi decay to final state pi+pi-pi0 according to # +# PDG2000. Caution: NO INTERFERENCE between rho pi final # +# states are implemented! # +# # +# Author: Thomas Schietinger # +# Jonathon Coleman -changed decay to purly phsp # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/17 # +############################################################ + +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Jpsim5pimnoint_KS_pm.dec b/BaBar_2014/B0B0bar_Jpsim5pimnoint_KS_pm.dec new file mode 100644 index 0000000..5a4a0db --- /dev/null +++ b/BaBar_2014/B0B0bar_Jpsim5pimnoint_KS_pm.dec @@ -0,0 +1,95 @@ +############################################################ +# # +# Decay: anti-B0 -> Jpsi K0s, B0 -> X # +# | |-> pi+pi- # +# -> pi+pi-pi+pi-pi0 # +# # +# + cc # +# # +# Jpsi decay to final state pi+pi-pi+pi-pi0 according to # +# PDG2000. Caution: NO INTERFERENCES between the various # +# resonances are implemented! # +# # +# Author: Thomas Schietinger # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/17 # +############################################################ + +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Alias Mya_20 a_20 +Alias Mya_2+ a_2+ +Alias Mya_2- a_2- +Alias Myb_10 b_10 +Alias Myb_1+ b_1+ +Alias Myb_1- b_1- +Alias Myf_2 f_2 +Alias Myomega omega +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.0755 Mya_20 rho0 PHSP; +0.0756 Mya_2+ rho- PHSP; +0.0756 Mya_2- rho+ PHSP; +0.0607 Myb_10 rho0 PHSP; +0.0790 Myb_1+ rho- PHSP; +0.0790 Myb_1- rho+ PHSP; +0.0641 Myomega Myf_2 PHSP; +0.1258 Myomega pi+ pi- PHSP; +0.3647 pi+ pi- pi+ pi- pi0 PHSP; +Enddecay +# +Decay Mya_20 +0.500 rho+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 rho- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_2+ +0.500 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 rho+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_2- +0.500 rho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 rho- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Myb_10 +1.0 Myomega pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myb_1+ +1.0 Myomega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myb_1- +1.0 Myomega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myf_2 +1.0 pi+ pi- TSS; +Enddecay +# +Decay Myomega +1.0 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Jpsim7pimnoint_KS_pm.dec b/BaBar_2014/B0B0bar_Jpsim7pimnoint_KS_pm.dec new file mode 100644 index 0000000..4673ecd --- /dev/null +++ b/BaBar_2014/B0B0bar_Jpsim7pimnoint_KS_pm.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: anti-B0 -> Jpsi K0s, B0 -> X # +# | |-> pi+pi- # +# -> pi+pi-pi+pi-pi+pi-pi0 # +# # +# + cc # +# # +# Jpsi decay to final state pi+pi-pi+pi-pi0 according to # +# PDG2000. Caution: NO INTERFERENCES between the various # +# resonances are implemented! # +# # +# Tested 2001/07/19: 1 event causes too many seeds... # +# # +# Author: Thomas Schietinger # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/17 # +############################################################ + +Alias MyJ/psi J/psi +Alias Myomega omega +Alias MyK_S0 K_S0 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.260 Myomega pi+ pi- pi+ pi- PHSP; +0.740 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_JpsipBaryon.dec b/BaBar_2014/B0B0bar_JpsipBaryon.dec new file mode 100644 index 0000000..ef09a69 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsipBaryon.dec @@ -0,0 +1,42 @@ +################################################### +# # +# B0 -> J/psi anti-p- baryon # +# | # +# ->l+l- # +# # +# Contact: Christopher Hearty # +# hearty@triumf.ca # +# Created June 13, 2002 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MySigma+ Sigma+ +Alias Myanti-Sigma- anti-Sigma- +# +ChargeConj MySigma+ Myanti-Sigma- +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.00 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.50 MyJ/psi anti-p- p+ PHSP; +0.50 MyJ/psi anti-p- MySigma+ PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MySigma+ +1.00 p+ pi0 PHSP; +Enddecay +# +CDecay Myanti-B0 +CDecay Myanti-Sigma- +End diff --git a/BaBar_2014/B0B0bar_JpsipSigma.dec b/BaBar_2014/B0B0bar_JpsipSigma.dec new file mode 100644 index 0000000..2958b21 --- /dev/null +++ b/BaBar_2014/B0B0bar_JpsipSigma.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B0 -> J/psi anti-p- Sigma+ # +# | | # +# ->l+l- p+ pi0 # +# # +# Contact: Christopher Hearty # +# hearty@triumf.ca # +# Created July 11, 2002 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MySigma+ Sigma+ +Alias Myanti-Sigma- anti-Sigma- +# +ChargeConj MySigma+ Myanti-Sigma- +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.00 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyJ/psi anti-p- MySigma+ PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MySigma+ +1.00 p+ pi0 PHSP; +Enddecay +# +CDecay Myanti-B0 +CDecay Myanti-Sigma- +End diff --git a/BaBar_2014/B0B0bar_Jpsippbar.dec b/BaBar_2014/B0B0bar_Jpsippbar.dec new file mode 100644 index 0000000..49a5793 --- /dev/null +++ b/BaBar_2014/B0B0bar_Jpsippbar.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> J/psi anti-p- p+ # +# | # +# ->l+l- # +# # +# Contact: Christopher Hearty # +# hearty@triumf.ca # +# Created July 11, 2002 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +# +ChargeConj MyB0 Myanti-B0 +# +Decay Upsilon(4S) +1.00 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyJ/psi anti-p- p+ PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +CDecay Myanti-B0 +End diff --git a/BaBar_2014/B0B0bar_K0Lf2.dec b/BaBar_2014/B0B0bar_K0Lf2.dec new file mode 100644 index 0000000..c83f3ee --- /dev/null +++ b/BaBar_2014/B0B0bar_K0Lf2.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B0 -> f2(1270) K0L + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Matt Graham # +# Created: 19-Apr-2004 # +# # +################################################### +# +# Decay table for B0 -> f2(1270) K0L using the SSD_CP model +# (scalar -> tensor scalar with CP interference) +# The f2 decays to pi+ pi- using the TSS model +# f2(1270) resonance parameters unchanged (seem ok in pdg.table) +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf2 f_2 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf2 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.000 Myf2 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myf2 +1.000 pi- pi+ TSS; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_K0lrho0_rho02pi.dec b/BaBar_2014/B0B0bar_K0lrho0_rho02pi.dec new file mode 100644 index 0000000..2833de0 --- /dev/null +++ b/BaBar_2014/B0B0bar_K0lrho0_rho02pi.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B0 -> rho0 K0l + c.c. # +# | # +# `--> pi+ pi- # +# # +# Author: Matt Graham # +# Created: 19 April 2004 # +# # +################################################### +# +# Decay table for B0 -> rho0 K0l +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi+ pi- (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho0 rho0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho0 K_L0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho0 K_L0 SVS; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_K0nunu.dec b/BaBar_2014/B0B0bar_K0nunu.dec new file mode 100644 index 0000000..d8d9d70 --- /dev/null +++ b/BaBar_2014/B0B0bar_K0nunu.dec @@ -0,0 +1,50 @@ +################################################################### +# B0 --> K*0 nu nubar, B0bar - > generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: R.V. Kowalewski 11/22/01 # +################################################################### +# +# +# Alias particles for specific decays +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +Alias myK0 K0 +Alias myantiK0 anti-K0 +ChargeConj myK0 myantiK0 +# +Decay Upsilon(4S) +0.42000 B0 myantiB0 VSS_MIX dm; +0.42000 myB0 anti-B0 VSS_MIX dm; +0.08000 anti-B0 myantiB0 VSS_MIX dm; +0.08000 B0 myB0 VSS_MIX dm; +Enddecay +# +Decay myB0 +1.0000 myK0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay myantiB0 +1.0000 myantiK0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +Decay myK0 +1.0000 K_S0 PHOTOS PHSP ; +Enddecay +# +Decay myantiK0 +1.0000 K_S0 PHOTOS PHSP ; +Enddecay + +# +End + + + diff --git a/BaBar_2014/B0B0bar_K0s2pi0.dec b/BaBar_2014/B0B0bar_K0s2pi0.dec new file mode 100644 index 0000000..233b2c4 --- /dev/null +++ b/BaBar_2014/B0B0bar_K0s2pi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> K0S pi0 pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K0S pi0 pi0 (non-resonant) +# using phase space +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K_S0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K_S0 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_K0sK0sK0s.dec b/BaBar_2014/B0B0bar_K0sK0sK0s.dec new file mode 100644 index 0000000..6a9622b --- /dev/null +++ b/BaBar_2014/B0B0bar_K0sK0sK0s.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B0 -> K0s K0s K0s (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K0s K0s K0s (non-resonant) +# using phase space +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K_S0 K_S0 K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K_S0 K_S0 K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_K0sf2.dec b/BaBar_2014/B0B0bar_K0sf2.dec new file mode 100644 index 0000000..acb14c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_K0sf2.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B0 -> f2(1270) pi0 + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Andreas Hoecker # +# Created: 19-Jan-2004 # +# # +################################################### +# +# Decay table for B0 -> f2(1270) K0s using the SSD_CP model +# (scalar -> tensor scalar with CP interference) +# The f2 decays to pi+ pi- using the TSS model +# f2(1270) resonance parameters unchanged (seem ok in pdg.table) +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf2 f_2 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf2 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.000 Myf2 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myf2 +1.000 pi- pi+ TSS; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_K0sphi_phiKK.dec b/BaBar_2014/B0B0bar_K0sphi_phiKK.dec new file mode 100644 index 0000000..b3c30ec --- /dev/null +++ b/BaBar_2014/B0B0bar_K0sphi_phiKK.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B0 -> phi K0s + c.c. # +# | # +# `--> K+ K- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> phi K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The phi decays to K+ K- (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myphi phi +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myphi K_S0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myphi K_S0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_K0srho0_rho02pi.dec b/BaBar_2014/B0B0bar_K0srho0_rho02pi.dec new file mode 100644 index 0000000..eeadd83 --- /dev/null +++ b/BaBar_2014/B0B0bar_K0srho0_rho02pi.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B0 -> rho0 K0s + c.c. # +# | # +# `--> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> rho0 K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi+ pi- (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho0 rho0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho0 K_S0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho0 K_S0 SVS; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_K2pi_CP.dec b/BaBar_2014/B0B0bar_K2pi_CP.dec new file mode 100644 index 0000000..6e682c6 --- /dev/null +++ b/BaBar_2014/B0B0bar_K2pi_CP.dec @@ -0,0 +1,35 @@ +################################################### +# # +# B0 -> K+ pi- pi0 + c.c. # +# with interference between the K* and rho # +# resonances # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> K+ pi- pi0 with interference +# between the K* and rho resonances +# included using the BTOKPIPI_CP model. +# +# +Define alpha 1.365 +Define beta 0.390 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ pi- pi0 BTOKPIPI_CP dm alpha beta; +Enddecay +# +Decay Myanti-B0 +1.000 K- pi+ pi0 BTOKPIPI_CP dm alpha beta; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_KK.dec b/BaBar_2014/B0B0bar_KK.dec new file mode 100644 index 0000000..613811c --- /dev/null +++ b/BaBar_2014/B0B0bar_KK.dec @@ -0,0 +1,26 @@ +################################################### +# # +# Decay: B0B -> K+ K- + cc # +# # +# Author: J. Olsen 9/15/00 # +# # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 + 1.000 K+ K- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.000 K- K+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KLpi0_kltopi0pi0.dec b/BaBar_2014/B0B0bar_KLpi0_kltopi0pi0.dec new file mode 100644 index 0000000..3f44df3 --- /dev/null +++ b/BaBar_2014/B0B0bar_KLpi0_kltopi0pi0.dec @@ -0,0 +1,42 @@ +################################################### +# # +# Decay: B0 -> KL pi0 + cc # +# # +# Author: Jim Olsen (jolsen@slac.stanford.edu) # +# Created: (Amir Farbin) 2/2/99 # +# Modified for pi0->2gamma:(Jim Olsen) 2/17/00 # +# for kl->pi0pi0 (Adrian Bevan) 3/29/01 # +# # +# Simple neutral B decays to KlPi0 without mixing # +# and with Kl->pi0pi0 and Pi0->2gamma. # +################################################### +# +# +Alias myPi0 pi0 +Alias myKl K_L0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 myKl myPi0 PHSP; +Enddecay +# +Decay MyB0 +1.0000 myKl myPi0 PHSP; +Enddecay +# +Decay myKl +1.00 pi0 pi0 PHSP; +Enddecay +# +Decay myPi0 +1.00 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_KSKS.dec b/BaBar_2014/B0B0bar_KSKS.dec new file mode 100644 index 0000000..9edd658 --- /dev/null +++ b/BaBar_2014/B0B0bar_KSKS.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B0 -> Ks Ks # +# # +# Author: U.Berzano # +# created: 25/jul/00 # +################################################### +# +# Decay table for B0 -> Ks Ksbar using a simple (S)calar to (S)calar-(S)calar +# model. The Ks decays to pi+ pi-. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias myKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 myKs myKs SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 myKs myKs SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_KSeta_etaDalitz.dec b/BaBar_2014/B0B0bar_KSeta_etaDalitz.dec new file mode 100644 index 0000000..ac7c20d --- /dev/null +++ b/BaBar_2014/B0B0bar_KSeta_etaDalitz.dec @@ -0,0 +1,37 @@ +################################################### +# # +# Decay: B0 -> KS pi0 + cc,pi0->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myEta eta +Alias myKs K_S0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 myKs myEta PHSP; +Enddecay +# +Decay MyB0 +1.0000 myKs myEta PHSP; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +Decay myEta +1.00 e+ e- gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_KSetac_pppm.dec b/BaBar_2014/B0B0bar_KSetac_pppm.dec new file mode 100644 index 0000000..4795532 --- /dev/null +++ b/BaBar_2014/B0B0bar_KSetac_pppm.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> p p-bar # +# + cc # +# # +# Author: G. Dubois-Felsmann # +# Created: 2000.08.19 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +1.0000 p+ anti-p- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_KSpi0.dec b/BaBar_2014/B0B0bar_KSpi0.dec new file mode 100644 index 0000000..d31aa07 --- /dev/null +++ b/BaBar_2014/B0B0bar_KSpi0.dec @@ -0,0 +1,40 @@ +################################################### +# # +# Decay: B0 -> KS pi0 + cc # +# # +# Author: Jim Olsen (jolsen@slac.stanford.edu) # +# Created: (Amir Farbin) 2/2/99 # +# Modified for pi0->2gamma:(Jim Olsen) 2/17/00 # +# # +# Simple neutral B decays to KsPi0 without mixing # +# and with Ks->pi+pi- and Pi0->2gamma. # +################################################### +# +# +Alias myPi0 pi0 +Alias myKs K_S0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 myKs myPi0 PHSP; +Enddecay +# +Decay MyB0 +1.0000 myKs myPi0 PHSP; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +Decay myPi0 +1.00 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_KSpi0_2beta.dec b/BaBar_2014/B0B0bar_KSpi0_2beta.dec new file mode 100644 index 0000000..ec57d50 --- /dev/null +++ b/BaBar_2014/B0B0bar_KSpi0_2beta.dec @@ -0,0 +1,27 @@ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias myK_S0 K_S0 +Alias mypi0 pi0 +# +Decay pi0 +1 gamma gamma PHSP; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 myK_S0 mypi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.00 myK_S0 mypi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KSpi0_C=m0.6_S=0.58.dec b/BaBar_2014/B0B0bar_KSpi0_C=m0.6_S=0.58.dec new file mode 100644 index 0000000..c689131 --- /dev/null +++ b/BaBar_2014/B0B0bar_KSpi0_C=m0.6_S=0.58.dec @@ -0,0 +1,28 @@ +#relative phase Pi/2 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias myK_S0 K_S0 +Alias mypi0 pi0 +# +Decay pi0 +1 gamma gamma PHSP; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 myK_S0 mypi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 0.5 1.570; +Enddecay +# +Decay Myanti-B0 +1.00 myK_S0 mypi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 0.5 1.570; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KSpi0_alpha.dec b/BaBar_2014/B0B0bar_KSpi0_alpha.dec new file mode 100644 index 0000000..617ec78 --- /dev/null +++ b/BaBar_2014/B0B0bar_KSpi0_alpha.dec @@ -0,0 +1,27 @@ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias myK_S0 K_S0 +Alias mypi0 pi0 +# +Decay pi0 +1 gamma gamma PHSP; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +# +Decay Upsilon(4S) +1.000 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 myK_S0 mypi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.00 myK_S0 mypi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KSpi0_kstopi0pi0.dec b/BaBar_2014/B0B0bar_KSpi0_kstopi0pi0.dec new file mode 100644 index 0000000..07b71f0 --- /dev/null +++ b/BaBar_2014/B0B0bar_KSpi0_kstopi0pi0.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: B0 -> KS pi0 + cc # +# # +# Author: Jim Olsen (jolsen@slac.stanford.edu) # +# Created: (Amir Farbin) 2/2/99 # +# Modified for pi0->2gamma:(Jim Olsen) 2/17/00 # +# for ks->pi0pi0 (Adrian Bevan) 3/29/01 # bevan@slac.stanford.edu +# # +# Simple neutral B decays to KsPi0 without mixing # +# and with Ks->pi0pi0 and Pi0->2gamma. # +################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPi0 pi0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyKs pi0 PHSP; +Enddecay +# +Decay MyB0 +1.0000 MyKs pi0 PHSP; +Enddecay +# +Decay MyKs +1.00 pi0 pi0 PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_KSpi0_pi0Dalitz.dec b/BaBar_2014/B0B0bar_KSpi0_pi0Dalitz.dec new file mode 100644 index 0000000..ed7433e --- /dev/null +++ b/BaBar_2014/B0B0bar_KSpi0_pi0Dalitz.dec @@ -0,0 +1,37 @@ +################################################### +# # +# Decay: B0 -> KS pi0 + cc,pi0->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myPi0 pi0 +Alias myKs K_S0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 myKs myPi0 PHSP; +Enddecay +# +Decay MyB0 +1.0000 myKs myPi0 PHSP; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +Decay myPi0 +1.00 e+ e- gamma PI0_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Keta1295_KKpipl.dec b/BaBar_2014/B0B0bar_Keta1295_KKpipl.dec new file mode 100644 index 0000000..5304020 --- /dev/null +++ b/BaBar_2014/B0B0bar_Keta1295_KKpipl.dec @@ -0,0 +1,49 @@ +############################################################## +# # +# Decay: B0 -> eta(1295) K0, eta(1295) -> K0K-pi+ # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson eta(2S) 20221 1.297 0.053 0.2 # +# spin=0 (fixed May 2001) # +############################################################## +# +Alias Myetap eta(2S) +Alias MyK_S0 K_S0 +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +# 1.0000 Myetap MyK_S0 PHSP; +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +# 1.0000 Myetap MyK_S0 PHSP; +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myetap +0.5000 MyK_S0 K+ pi- PHSP; +0.5000 MyK_S0 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Keta1295_KKpizr.dec b/BaBar_2014/B0B0bar_Keta1295_KKpizr.dec new file mode 100644 index 0000000..f796f8b --- /dev/null +++ b/BaBar_2014/B0B0bar_Keta1295_KKpizr.dec @@ -0,0 +1,48 @@ +############################################################## +# # +# Decay: B0 -> eta(1295) K0, eta(1295) -> K+K-pi0 # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson eta(2S) 20221 1.297 0.053 0.2 # +# spin=0 (fixed May 2001) # +############################################################## +# +Alias Myetap eta(2S) +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +# 1.0000 Myetap MyK_S0 PHSP; + 1.0000 eta(2S) MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +# 1.0000 Myetap MyK_S0 PHSP; + 1.0000 eta(2S) MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay eta(2S) +1.0000 K+ K- pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Keta1295_etapipi.dec b/BaBar_2014/B0B0bar_Keta1295_etapipi.dec new file mode 100644 index 0000000..981e5cf --- /dev/null +++ b/BaBar_2014/B0B0bar_Keta1295_etapipi.dec @@ -0,0 +1,53 @@ +############################################################## +# # +# Decay: B0 -> eta(1295) K0, eta(1295) -> eta(gg)pi+pi- # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson eta(2S) 20221 1.297 0.053 0.2 # +# spin=0 (fixed May 2001) # +############################################################## +# +Alias Myetap eta(2S) +Alias Myeta eta +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +# 1.0000 Myetap MyK_S0 PHSP; +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0bar +# 1.0000 Myetap MyK_S0 PHSP; +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myetap +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kf1285_KKpipl.dec b/BaBar_2014/B0B0bar_Kf1285_KKpipl.dec new file mode 100644 index 0000000..0934b82 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kf1285_KKpipl.dec @@ -0,0 +1,47 @@ +############################################################## +# # +# Decay: B0 -> f_1 K0, f_1(1285) -> K0K-pi+ # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV spin # +# Meson f_1 20223 1.2822 0.0248 0.05 1 # +# # +############################################################## +# +Alias Myetap f_1 +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myetap +0.5000 MyK_S0 K+ pi- PHSP; +0.5000 MyK_S0 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kf1285_KKpizr.dec b/BaBar_2014/B0B0bar_Kf1285_KKpizr.dec new file mode 100644 index 0000000..59ec4ea --- /dev/null +++ b/BaBar_2014/B0B0bar_Kf1285_KKpizr.dec @@ -0,0 +1,46 @@ +############################################################## +# # +# Decay: B0 -> f_1 K0, f_1(1285) -> K+K-pi0 # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV spin # +# Meson f_1 20223 1.2822 0.0248 0.05 1 # +# # +############################################################## +# +Alias Myetap f_1 +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myetap +1.0000 K+ K- pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kf1285_etapipi.dec b/BaBar_2014/B0B0bar_Kf1285_etapipi.dec new file mode 100644 index 0000000..94e4d96 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kf1285_etapipi.dec @@ -0,0 +1,51 @@ +############################################################## +# # +# Decay: B0 -> f_1 K0, f_1(1285) -> eta(gg)pi+pi- # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV spin # +# Meson f_1 20223 1.2822 0.0248 0.05 1 # +# # +############################################################## +# +Alias Myetap f_1 +Alias Myeta eta +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myetap +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kf1525_K0K0.dec b/BaBar_2014/B0B0bar_Kf1525_K0K0.dec new file mode 100644 index 0000000..249efdd --- /dev/null +++ b/BaBar_2014/B0B0bar_Kf1525_K0K0.dec @@ -0,0 +1,46 @@ +############################################################## +# # +# Decay: B0 -> f'_2 K0, f'_2 -> KSKS # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson f'_2 335 1.525 0.076 0.2 # +# # +############################################################## +# +Alias Myetap f'_2 +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myetap +1.0000 MyK_S0 MyK_S0 TSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kf1525_KpKm.dec b/BaBar_2014/B0B0bar_Kf1525_KpKm.dec new file mode 100644 index 0000000..3d593aa --- /dev/null +++ b/BaBar_2014/B0B0bar_Kf1525_KpKm.dec @@ -0,0 +1,46 @@ +############################################################## +# # +# Decay: B0 -> f'_2 K0, f'_2 -> K+K- # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson f'_2 335 1.525 0.076 0.2 # +# # +############################################################## +# +Alias Myetap f'_2 +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 Myetap MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myetap +1.0000 K+ K- TSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KmKstarp_KstarpK0spi.dec b/BaBar_2014/B0B0bar_KmKstarp_KstarpK0spi.dec new file mode 100644 index 0000000..b4a88b9 --- /dev/null +++ b/BaBar_2014/B0B0bar_KmKstarp_KstarpK0spi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*+ K- + c.c. # +# | # +# | # +# `--> K0s pi+ # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K*+ K- +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K0s pi+ (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*- K*- +Alias MyK*+ K*+ +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*+ K- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*- K+ SVS; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KmKstarp_KstarpKpi0.dec b/BaBar_2014/B0B0bar_KmKstarp_KstarpKpi0.dec new file mode 100644 index 0000000..262a44e --- /dev/null +++ b/BaBar_2014/B0B0bar_KmKstarp_KstarpKpi0.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*+ K- + c.c. # +# | # +# | # +# `--> K+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K*+ K- +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K+ pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*- K*- +Alias MyK*+ K*+ +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*+ K- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*- K+ SVS; +Enddecay +# +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KmpipK0.dec b/BaBar_2014/B0B0bar_KmpipK0.dec new file mode 100644 index 0000000..4f0840e --- /dev/null +++ b/BaBar_2014/B0B0bar_KmpipK0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> K- pi+ K0S (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K- pi+ K0S (non-resonant) +# using phase space +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K- pi+ K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K+ pi- K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KpKmKstar_KSpi0.dec b/BaBar_2014/B0B0bar_KpKmKstar_KSpi0.dec new file mode 100644 index 0000000..8047e55 --- /dev/null +++ b/BaBar_2014/B0B0bar_KpKmKstar_KSpi0.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B0 -> K+ K- K*0 (KSpi0) (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ K- MyK*0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 K+ K- MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KpKmKstar_Kppim.dec b/BaBar_2014/B0B0bar_KpKmKstar_Kppim.dec new file mode 100644 index 0000000..ef68790 --- /dev/null +++ b/BaBar_2014/B0B0bar_KpKmKstar_Kppim.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: B0 -> K+ K- K*0 (K+pi-) (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ K- MyK*0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 K+ K- MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KpKstarm_KstarmK0spi.dec b/BaBar_2014/B0B0bar_KpKstarm_KstarmK0spi.dec new file mode 100644 index 0000000..31ccf9c --- /dev/null +++ b/BaBar_2014/B0B0bar_KpKstarm_KstarmK0spi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*- K+ + c.c. # +# | # +# | # +# `--> K0s pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K*- K+ +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*- decays to K0s pi- (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*- K*- +Alias MyK*+ K*+ +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*- K+ SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*+ K- SVS; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KpKstarm_KstarmKpi0.dec b/BaBar_2014/B0B0bar_KpKstarm_KstarmKpi0.dec new file mode 100644 index 0000000..4c42d9d --- /dev/null +++ b/BaBar_2014/B0B0bar_KpKstarm_KstarmKpi0.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*- K+ + c.c. # +# | # +# | # +# `--> K- pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K*- K+ +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*- decays to K- pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*- K*- +Alias MyK*+ K*+ +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*- K+ SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*+ K- SVS; +Enddecay +# +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kpi.dec b/BaBar_2014/B0B0bar_Kpi.dec new file mode 100644 index 0000000..321d843 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kpi.dec @@ -0,0 +1,26 @@ +################################################### +# # +# Decay: B0B -> K- pi+ + cc # +# # +# Author: G. London 2/2/99 # +# modified: 10/2/99 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 + 1.000 K+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_KpiK0.dec b/BaBar_2014/B0B0bar_KpiK0.dec new file mode 100644 index 0000000..fbebcee --- /dev/null +++ b/BaBar_2014/B0B0bar_KpiK0.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B0 -> K+ pi- K0S (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26/April/00 # +# # +################################################### +# +# Decay table for B0 -> K+ pi- K0S (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ pi- K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K- pi+ K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kpipi0.dec b/BaBar_2014/B0B0bar_Kpipi0.dec new file mode 100644 index 0000000..4b5e58c --- /dev/null +++ b/BaBar_2014/B0B0bar_Kpipi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> K+ pi- pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> K+ pi- pi0 (non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K- pi+ pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kpipi0pi0.dec b/BaBar_2014/B0B0bar_Kpipi0pi0.dec new file mode 100644 index 0000000..1aac03e --- /dev/null +++ b/BaBar_2014/B0B0bar_Kpipi0pi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> K+ pi- pi0 pi0 (non-resonant) + c.c. # +# # +# Author: Haibo Li lihb@slac.stanford.edu # +# Created: 05/20/2004 # +# # +################################################### +# +# Decay table for B0 -> K+ pi- pi0 pi0(non-resonant) +# using phase space +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 K+ pi- pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 K- pi+ pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Krho.dec b/BaBar_2014/B0B0bar_Krho.dec new file mode 100644 index 0000000..7121bf4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Krho.dec @@ -0,0 +1,40 @@ +################################################### +# # +# B0B-> K- rho+ + cc # +# # +# Author: Jim Olsen # +# created: 3/Feb/99 # +# modified: g.london 10/Feb/99 # +################################################### +# +# Decay table for B0b -> K- rho+ using a simple (S)calar to (V)ector-(S)calar +# model. The rho+ decays to pi+ pi0. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias myrho+ rho+ +Alias myrho- rho- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.00 myrho+ K- SVS; +Enddecay +# +Decay myrho+ +1.00 pi+ pi0 VSS; +Enddecay +# +Decay MyB0 +1.00 myrho- K+ SVS; +Enddecay +# +Decay myrho- +1.00 pi- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Ksll.dec b/BaBar_2014/B0B0bar_Ksll.dec new file mode 100644 index 0000000..76ac513 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ksll.dec @@ -0,0 +1,42 @@ +################################################################### +# B0 --> e+e-/mu+mu- KS B0bar -> generic # +# |--> generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: P. Reinertsen 8/11/99 # +# Mail: PLASSE@SLAC.STANFORD.EDU +################################################################### +# +# +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 K_S0 e+ e- PHOTOS PHSP ; +0.5000 K_S0 mu+ mu- PHOTOS PHSP ; +Enddecay +# +# +Decay Myanti-B0 +0.5000 K_S0 e+ e- PHOTOS PHSP ; +0.5000 K_S0 mu+ mu- PHOTOS PHSP ; +Enddecay +# +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_Ksnunubar.dec b/BaBar_2014/B0B0bar_Ksnunubar.dec new file mode 100644 index 0000000..5d08d26 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ksnunubar.dec @@ -0,0 +1,40 @@ +################################################################### +# B0 --> e+e-/nu nu KS B0bar -> generic # +# |--> generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: J. Panetta 01/10/00 # +# Mode useful for trigger studies # +################################################################### +# +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +# +Decay MyB0 +1.000 K_S0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +Decay Myanti-B0 +1.000 K_S0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_Ksrho0_CP.dec b/BaBar_2014/B0B0bar_Ksrho0_CP.dec new file mode 100644 index 0000000..834eac1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Ksrho0_CP.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B0 -> rho0 K0s + c.c. # +# | # +# ---> pi+ pi- # +# # +# CP violation included # +# # +# Author: Jim Smith jgsmith@pizero.colorado.edu # +# Created: 16 July 2004 # +# # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kst0Kst0Pi0_KPi_KPi.dec b/BaBar_2014/B0B0bar_Kst0Kst0Pi0_KPi_KPi.dec new file mode 100644 index 0000000..975867a --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst0Kst0Pi0_KPi_KPi.dec @@ -0,0 +1,45 @@ +################################################### +# # +# Decay: B0 -> K*0 K*0 pi0 + cc (K* -> K+pi-) # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*0 MyK*0 pi0 PHSP; +1.0000 MyK*0bar MyK*0 pi0 PHSP; +1.0000 MyK*0bar MyK*0bar pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*0 MyK*0 pi0 PHSP; +1.0000 MyK*0bar MyK*0 pi0 PHSP; +1.0000 MyK*0bar MyK*0bar pi0 PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Kst0KstH_KPi_KPi0.dec b/BaBar_2014/B0B0bar_Kst0KstH_KPi_KPi0.dec new file mode 100644 index 0000000..3a9a373 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst0KstH_KPi_KPi0.dec @@ -0,0 +1,66 @@ +################################################### +# # +# Decay: B0 -> K*0 K*+ h- + cc (K*0 -> K+pi-; K*+ -> K+pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*0 MyK*+ pi- PHSP; +1.0000 MyK*0 MyK*- pi+ PHSP; +#1.0000 MyK*0 MyK*+ K- PHSP; +#1.0000 MyK*0 MyK*- K+ PHSP; +1.0000 MyK*0bar MyK*+ pi- PHSP; +1.0000 MyK*0bar MyK*- pi+ PHSP; +#1.0000 MyK*0bar MyK*+ K- PHSP; +#1.0000 MyK*0bar MyK*- K+ PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*0 MyK*+ pi- PHSP; +1.0000 MyK*0 MyK*- pi+ PHSP; +#1.0000 MyK*0 MyK*+ K- PHSP; +#1.0000 MyK*0 MyK*- K+ PHSP; +1.0000 MyK*0bar MyK*+ pi- PHSP; +1.0000 MyK*0bar MyK*- pi+ PHSP; +#1.0000 MyK*0bar MyK*+ K- PHSP; +#1.0000 MyK*0bar MyK*- K+ PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_Kst0Rho0Pi0_KPi.dec b/BaBar_2014/B0B0bar_Kst0Rho0Pi0_KPi.dec new file mode 100644 index 0000000..476f538 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst0Rho0Pi0_KPi.dec @@ -0,0 +1,41 @@ +################################################### +# # +# Decay: B0 -> K*0 rho0 pi0 + cc (K*0 -> K+pi-) # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*0bar rho0 pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*0 rho0 pi0 PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Kst0RhoH_KPi.dec b/BaBar_2014/B0B0bar_Kst0RhoH_KPi.dec new file mode 100644 index 0000000..84c3d2f --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst0RhoH_KPi.dec @@ -0,0 +1,55 @@ +################################################### +# # +# Decay: B0 -> K*0 rho+ h- + cc (K*0 -> K+pi-) # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*0 rho+ pi- PHSP; +1.0000 MyK*0 rho- pi+ PHSP; +1.0000 MyK*0bar rho+ pi- PHSP; +1.0000 MyK*0bar rho- pi+ PHSP; +1.0000 MyK*0 rho+ K- PHSP; +1.0000 MyK*0 rho- K+ PHSP; +1.0000 MyK*0bar rho+ K- PHSP; +1.0000 MyK*0bar rho- K+ PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*0 rho+ pi- PHSP; +1.0000 MyK*0 rho- pi+ PHSP; +1.0000 MyK*0bar rho+ pi- PHSP; +1.0000 MyK*0bar rho- pi+ PHSP; +1.0000 MyK*0 rho+ K- PHSP; +1.0000 MyK*0 rho- K+ PHSP; +1.0000 MyK*0bar rho+ K- PHSP; +1.0000 MyK*0bar rho- K+ PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Kst0RhomPip_KPi.dec b/BaBar_2014/B0B0bar_Kst0RhomPip_KPi.dec new file mode 100644 index 0000000..8ac2a3b --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst0RhomPip_KPi.dec @@ -0,0 +1,40 @@ +################################################### +# # +# Decay: B0 -> K*0 rho- pi+ + cc (K*0 -> K+pi-) # +# # +# Author: S. Emery # +# Created: 23/07/03 # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*0bar rho+ pi- PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*0 rho- pi+ PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Kst0RhopPim_KPi.dec b/BaBar_2014/B0B0bar_Kst0RhopPim_KPi.dec new file mode 100644 index 0000000..cbab18d --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst0RhopPim_KPi.dec @@ -0,0 +1,41 @@ +################################################### +# # +# Decay: B0 -> K*0 rho+ pi- + cc (K*0 -> K+pi-) # +# # +# Author: S. Emery # +# Created: 23/07/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*0bar rho- pi+ PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*0 rho+ pi- PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Kst2_1430_Jpsi_ee.dec b/BaBar_2014/B0B0bar_Kst2_1430_Jpsi_ee.dec new file mode 100644 index 0000000..b8bb146 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst2_1430_Jpsi_ee.dec @@ -0,0 +1,45 @@ +######################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*2bar(1430) J/psi # +# | | | # +# | -> K- pi+ -> e+e- # +# -> X # +# # +# ofte@slac.stanford.edu # +######################################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_2*0 K_2*0 +Alias Myanti-K_2*0 anti-K_2*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 MyJ/psi MyK_2*0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0 MyJ/psi Myanti-K_2*0 PHSP; +Enddecay +# +#force the J/psi to go to two electrons.. +Decay MyJ/psi +1.000 e+ e- PHOTOS VLL; +Enddecay +# +#force K_2*0 to go to K+pi- +Decay MyK_2*0 +1.0 K+ pi- TSS; +Enddecay +# +Decay Myanti-K_2*0 +1.0 K- pi+ TSS; +Enddecay +# +End +#----------------------------------------------- diff --git a/BaBar_2014/B0B0bar_Kst2_1430_Jpsi_mumu.dec b/BaBar_2014/B0B0bar_Kst2_1430_Jpsi_mumu.dec new file mode 100644 index 0000000..b94c05d --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst2_1430_Jpsi_mumu.dec @@ -0,0 +1,45 @@ +######################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*2bar(1430) J/psi # +# | | | # +# | -> K- pi+ -> mu+mu- # +# -> X # +# # +# ofte@slac.stanford.edu # +######################################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_2*0 K_2*0 +Alias Myanti-K_2*0 anti-K_2*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 MyJ/psi MyK_2*0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0 MyJ/psi Myanti-K_2*0 PHSP; +Enddecay +# +#force the J/psi to go to two muons.. +Decay MyJ/psi +1.000 mu+ mu- PHOTOS VLL; +Enddecay +# +#force K_2*0 to go to K+pi- +Decay MyK_2*0 +1.0 K+ pi- TSS; +Enddecay +# +Decay Myanti-K_2*0 +1.0 K- pi+ TSS; +Enddecay +# +End +#----------------------------------------------- diff --git a/BaBar_2014/B0B0bar_KstKstPi0_KPi0_KPi0.dec b/BaBar_2014/B0B0bar_KstKstPi0_KPi0_KPi0.dec new file mode 100644 index 0000000..f0eb3aa --- /dev/null +++ b/BaBar_2014/B0B0bar_KstKstPi0_KPi0_KPi0.dec @@ -0,0 +1,41 @@ +################################################### +# # +# Decay: B0 -> K*+ K*- pi0 + cc (K*+ -> K+pi0) # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*+ MyK*- pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*+ MyK*- pi0 PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_KstRho0H_KPi0.dec b/BaBar_2014/B0B0bar_KstRho0H_KPi0.dec new file mode 100644 index 0000000..882d06c --- /dev/null +++ b/BaBar_2014/B0B0bar_KstRho0H_KPi0.dec @@ -0,0 +1,47 @@ +################################################### +# # +# Decay: B0 -> K*+ rho0 h- + cc (K*+ -> K+pi0) # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*+ rho0 pi- PHSP; +1.0000 MyK*- rho0 pi+ PHSP; +1.0000 MyK*+ rho0 K- PHSP; +1.0000 MyK*- rho0 K+ PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*+ rho0 pi- PHSP; +1.0000 MyK*- rho0 pi+ PHSP; +1.0000 MyK*+ rho0 K- PHSP; +1.0000 MyK*- rho0 K+ PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_KstRhoPi0_KPi0.dec b/BaBar_2014/B0B0bar_KstRhoPi0_KPi0.dec new file mode 100644 index 0000000..a6ab2dc --- /dev/null +++ b/BaBar_2014/B0B0bar_KstRhoPi0_KPi0.dec @@ -0,0 +1,43 @@ +################################################### +# # +# Decay: B0 -> K*+ rho- pi0 + cc (K*+ -> K+pi0) # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 MyK*+ rho- pi0 PHSP; +1.0000 MyK*- rho+ pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 MyK*+ rho- pi0 PHSP; +1.0000 MyK*- rho+ pi0 PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Kst_1273_gamma2.dec b/BaBar_2014/B0B0bar_Kst_1273_gamma2.dec new file mode 100644 index 0000000..cb6e9b9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst_1273_gamma2.dec @@ -0,0 +1,30 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar(1273) gamma # +# | # +# -> X # +# # +# 02/25/00 - Pete Sanders - # +# this is B0B0bar_Kst_1273_gamma.dec except the B0s decay 100% to K_10 # +# instead of 50%. The first one must have been a mistake. # +# # +# Mail: PSA@SLAC.STANFORD.EDU +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K_10 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +1.0000 anti-K_10 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kst_1402_gamma.dec b/BaBar_2014/B0B0bar_Kst_1402_gamma.dec new file mode 100644 index 0000000..a69c8f9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst_1402_gamma.dec @@ -0,0 +1,26 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar(1402) gamma # +# | # +# -> X # +# # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K'_10 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +1.0000 anti-K'_10 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kst_1430_gamma.dec b/BaBar_2014/B0B0bar_Kst_1430_gamma.dec new file mode 100644 index 0000000..94b3d4f --- /dev/null +++ b/BaBar_2014/B0B0bar_Kst_1430_gamma.dec @@ -0,0 +1,26 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar(1430) gamma # +# | # +# -> X # +# # +# ppenn@slac.stanford.edu # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +1.0000 anti-K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar0K0s_Kstar0K0spi0.dec b/BaBar_2014/B0B0bar_Kstar0K0s_Kstar0K0spi0.dec new file mode 100644 index 0000000..365bd82 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0K0s_Kstar0K0spi0.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> K*0 K0s + c.c. # +# | # +# `--> K0s pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K*0 K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*0 decays to K0s pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*0 K_S0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-K*0 K_S0 SVS; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K_S0 pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstar0K0s_Kstar0Kpi.dec b/BaBar_2014/B0B0bar_Kstar0K0s_Kstar0Kpi.dec new file mode 100644 index 0000000..fd1ee68 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0K0s_Kstar0Kpi.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> K*0 K0s + c.c. # +# | # +# `--> K+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K*0 K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*0 decays to K+ pi- (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*0 K_S0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-K*0 K_S0 SVS; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstar0eta_etaDalitz.dec b/BaBar_2014/B0B0bar_Kstar0eta_etaDalitz.dec new file mode 100644 index 0000000..4fafa52 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0eta_etaDalitz.dec @@ -0,0 +1,42 @@ +################################################### +# # +# Decay: B0 -> K*0 pi0 + cc,eta->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myEta eta +Alias myK*0 K*0 +Alias myanti-K*0 anti-K*0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 myanti-K*0 myEta SVS; +Enddecay +# +Decay MyB0 +1.0000 myK*0 myEta SVS; +Enddecay +# +Decay myK*0 +1.00 K+ pi- VSS; +Enddecay +# +Decay myanti-K*0 +1.00 K- pi+ VSS; +Enddecay +# +Decay myEta +1.00 e+ e- gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Kstar0ll.dec b/BaBar_2014/B0B0bar_Kstar0ll.dec new file mode 100644 index 0000000..535b642 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0ll.dec @@ -0,0 +1,41 @@ +################################################################### +# B0 --> e+e-/mu+mu- Kstar0 B0bar -> generic # +# |-->generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: P. Reinertsen 8/11/99 # +# Mail: PLASSE@SLAC.STANFORD.EDU +################################################################### +# +# +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +0.5000 K*0 e+ e- PHOTOS PHSP ; +0.5000 K*0 mu+ mu- PHOTOS PHSP ; +Enddecay +# +Decay Myanti-B0 +0.5000 K*0 e+ e- PHOTOS PHSP ; +0.5000 K*0 mu+ mu- PHOTOS PHSP ; +Enddecay +# +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_Kstar0nunu.dec b/BaBar_2014/B0B0bar_Kstar0nunu.dec new file mode 100644 index 0000000..63402c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0nunu.dec @@ -0,0 +1,39 @@ +################################################################### +# B0 --> K*0 nu nubar, B0bar - > generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: R.V. Kowalewski 11/22/01 # +################################################################### +# +# +# Alias particles for specific decays +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +0.42000 B0 myantiB0 VSS_MIX dm; +0.42000 myB0 anti-B0 VSS_MIX dm; +0.08000 anti-B0 myantiB0 VSS_MIX dm; +0.08000 B0 myB0 VSS_MIX dm; +Enddecay +# +Decay myB0 +1.0000 K*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay myantiB0 +1.0000 anti-K*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_Kstar0nunu_Kpi.dec b/BaBar_2014/B0B0bar_Kstar0nunu_Kpi.dec new file mode 100644 index 0000000..195f1a9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0nunu_Kpi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0B0bar_Kstar0nunu_Kpi.dec # +# # +# Decay: B0 -> K*0nunubar B0bar -> X # +# | # +# |->K+ pi- # +# # +# + cc # +# # +# Author: Bob Kowalewski kowalews@uvic.ca # +# 2001/04/30 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +0.420 MyB0 anti-B0 VSS_MIX dm; +0.420 Myanti-B0 B0 VSS_MIX dm; +0.080 Myanti-B0 anti-B0 VSS_MIX dm; +0.080 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyK*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-K*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyK*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstar0p1430pim_Kstar0p1430toK0spip.dec b/BaBar_2014/B0B0bar_Kstar0p1430pim_Kstar0p1430toK0spip.dec new file mode 100644 index 0000000..6c84af7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0p1430pim_Kstar0p1430toK0spip.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0(1430)- pi+ # +# | # +# -> X # +# # +# # +# Mail: keford@slac.stanford.edu +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K_0*+ pi- PHSP; +Enddecay +Decay myantiB0 +1.0000 K_0*- pi+ PHSP; +Enddecay +Decay K_0*+ +1.0000 K_S0 pi+ PHSP; +Enddecay +Decay K_0*- +1.0000 K_S0 pi- PHSP; +Enddecay +Decay K_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar0pi0_Kstar0K0spi0.dec b/BaBar_2014/B0B0bar_Kstar0pi0_Kstar0K0spi0.dec new file mode 100644 index 0000000..7790f75 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0pi0_Kstar0K0spi0.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> K*0 pi0 + c.c. # +# | # +# | # +# `--> K0s pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> K*0 pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*0 decays to K0s pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*0 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-K*0 pi0 SVS; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K_S0 pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar0pi0_pi0Dalitz.dec b/BaBar_2014/B0B0bar_Kstar0pi0_pi0Dalitz.dec new file mode 100644 index 0000000..32735f8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar0pi0_pi0Dalitz.dec @@ -0,0 +1,42 @@ +################################################### +# # +# Decay: B0 -> K*0 pi0 + cc,pi0->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myPi0 pi0 +Alias myK*0 K*0 +Alias myanti-K*0 anti-K*0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 myanti-K*0 myPi0 SVS; +Enddecay +# +Decay MyB0 +1.0000 myK*0 myPi0 SVS; +Enddecay +# +Decay myK*0 +1.00 K+ pi- VSS; +Enddecay +# +Decay myanti-K*0 +1.00 K- pi+ VSS; +Enddecay +# +Decay myPi0 +1.00 e+ e- gamma PI0_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Kstar1410ppim_Kstar1410ptoK0spip.dec b/BaBar_2014/B0B0bar_Kstar1410ppim_Kstar1410ptoK0spip.dec new file mode 100644 index 0000000..62dac55 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar1410ppim_Kstar1410ptoK0spip.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*(1410)- pi+ # +# | # +# -> X # +# # +# # +# Mail: keford@slac.stanford.edu +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K'*+ pi- SVS; +Enddecay +Decay myantiB0 +1.0000 K'*- pi+ SVS; +Enddecay +Decay K'*+ +1.0000 K_S0 pi+ VSS; +Enddecay +Decay K'*- +1.0000 K_S0 pi- VSS; +Enddecay +Decay K_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar1680ppim_Kstar1680ptoK0spip.dec b/BaBar_2014/B0B0bar_Kstar1680ppim_Kstar1680ptoK0spip.dec new file mode 100644 index 0000000..b488c8d --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar1680ppim_Kstar1680ptoK0spip.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*(1680)- pi+ # +# | # +# -> X # +# # +# # +# Mail: keford@slac.stanford.edu +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K''*+ pi- SVS; +Enddecay +Decay myantiB0 +1.0000 K''*- pi+ SVS; +Enddecay +Decay K''*+ +1.0000 K_S0 pi+ VSS; +Enddecay +Decay K''*- +1.0000 K_S0 pi- VSS; +Enddecay +Decay K_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar2p1430pim_Kstar2p1430toK0spip.dec b/BaBar_2014/B0B0bar_Kstar2p1430pim_Kstar2p1430toK0spip.dec new file mode 100644 index 0000000..1a27c41 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar2p1430pim_Kstar2p1430toK0spip.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*2(1430)- pi+ # +# | # +# -> X # +# # +# # +# Mail: keford@slac.stanford.edu +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K_2*+ pi- STS; +Enddecay +Decay myantiB0 +1.0000 K_2*- pi+ STS; +Enddecay +Decay K_2*+ +1.0000 K_S0 pi+ TSS; +Enddecay +Decay K_2*- +1.0000 K_S0 pi- TSS; +Enddecay +Decay K_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_KstarK_1270.dec b/BaBar_2014/B0B0bar_KstarK_1270.dec new file mode 100644 index 0000000..005e899 --- /dev/null +++ b/BaBar_2014/B0B0bar_KstarK_1270.dec @@ -0,0 +1,45 @@ +###################################################################### +# # +# B0 -> K_1(1270)- K+ (100%) + C.C. # +# # +# K_1(1270)- -> rho0 K- (100%) + C.C. # +# # +# rho0 -> pi+ pi (100%) + C.C. # +# # +# Author: J. P. Burke phjpb@SLAC.Stanford.EDU # +# Created: 12-Dec-2003 # +# # +###################################################################### +# +Alias myB0 B0 +Alias myanti-B0 anti-B0 +Alias myK*+ K_1+ +Alias myK*- K_1- +Alias myRho0 rho0 +# +Decay Upsilon(4S) +1.0000 B0 anti-B0 myB0 myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +0.5000 myK*+ K- SVS; +0.5000 myK*- K+ SVS; +Enddecay +# +Decay myanti-B0 +0.5000 myK*+ K- SVS; +0.5000 myK*- K+ SVS; +Enddecay +# +Decay myK*+ +1.0000 myRho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay myK*- +1.0000 myRho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay myRho0 +1.0000 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar_1410_gamma.dec b/BaBar_2014/B0B0bar_Kstar_1410_gamma.dec new file mode 100644 index 0000000..3561501 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_1410_gamma.dec @@ -0,0 +1,27 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar(1410) gamma # +# | # +# -> X # +# # +# # +# Mail: lodovico@slac.stanford.edu +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K'*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +1.0000 anti-K'*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar_1680_gamma.dec b/BaBar_2014/B0B0bar_Kstar_1680_gamma.dec new file mode 100644 index 0000000..b15ab7b --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_1680_gamma.dec @@ -0,0 +1,27 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar(1680) gamma # +# | # +# -> X # +# # +# # +# Mail: LODOVICO@SLAC.STANFORD.EDU +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 K''*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +1.0000 anti-K''*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0.dec b/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0.dec new file mode 100644 index 0000000..e3a5f74 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0.dec @@ -0,0 +1,67 @@ +############################################################ +# # +# Decay: B0 -> K*+ K*- -> (K0pi+)(K-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias My2K*+ K*+ +Alias My2K*- K*- +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +0.5000 My2K*+ MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.5000 MyK*+ My2K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +0.5000 My2K*+ MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.5000 MyK*+ My2K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay My2K*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay My2K*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0_ln.dec b/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0_ln.dec new file mode 100644 index 0000000..23cbf1e --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0_ln.dec @@ -0,0 +1,71 @@ +############################################################ +# # +# Decay: B0 -> K*+ K*- -> (K0pi+)(K-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias My2K*+ K*+ +Alias My2K*- K*- +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +0.5000 My2K*+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.5000 MyK*+ My2K*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +0.5000 My2K*+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.5000 MyK*+ My2K*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay My2K*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay My2K*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0_tr.dec b/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0_tr.dec new file mode 100644 index 0000000..e2dc249 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_K0pipKstar_Kmpi0_tr.dec @@ -0,0 +1,71 @@ +############################################################ +# # +# Decay: B0 -> K*+ K*- -> (K0pi+)(K-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias My2K*+ K*+ +Alias My2K*- K*- +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +0.5000 My2K*+ MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +0.5000 MyK*+ My2K*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +0.5000 My2K*+ MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +0.5000 MyK*+ My2K*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay My2K*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay My2K*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0.dec b/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0.dec new file mode 100644 index 0000000..480133d --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B0 -> K*+ K*- -> (K+pi0)(K-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyK*+ MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyK*+ MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0_ln.dec b/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0_ln.dec new file mode 100644 index 0000000..a338d65 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0_ln.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> K*+ K*- -> (K+pi0)(K-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyK*+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyK*+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0_tr.dec b/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0_tr.dec new file mode 100644 index 0000000..566ab01 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_Kppi0Kstar_Kmpi0_tr.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> K*+ K*- -> (K+pi0)(K-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyK*+ MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyK*+ MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim.dec b/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim.dec new file mode 100644 index 0000000..050b965 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B0 -> K*0 K*0bar -> (K+pi-)(K-pi+) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyK*0 MyK*0bar SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyK*0 MyK*0bar SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim_ln.dec b/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim_ln.dec new file mode 100644 index 0000000..54acae3 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim_ln.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> K*0 K*0bar -> (K+pi-)(K-pi+) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyK*0 MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyK*0 MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim_tr.dec b/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim_tr.dec new file mode 100644 index 0000000..ecc6b5a --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstar_KppimKstar_Kppim_tr.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> K*0 K*0bar -> (K+pi-)(K-pi+) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyK*0 MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyK*0 MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_Kstarf0_KSpi0.dec b/BaBar_2014/B0B0bar_Kstarf0_KSpi0.dec new file mode 100644 index 0000000..ac2fe07 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarf0_KSpi0.dec @@ -0,0 +1,78 @@ +############################################################ +# # +# Decay: B0 -> f0 K*0 -> (pi+pi-)(Ks0pi0) # +# Ks0->pi+pi- # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +# patch by Andreas Hoecker (26-Jan-04) # +# # +############################################################ +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.50 +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyK_S0 K_S0 +Alias Myf_0 f_0 +Define dm .464e12 +Define beta 0.39 +Define lambda 0.8 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# use a CP model similar to B->phiKs0, also S->VS +# +Decay MyB0 +1.0000 MyK*0 Myf_0 SVS_CP beta dm -1 1.0 0.0 1.0 0.0 ; +Enddecay +# +Decay MyB0bar +1.0000 MyK*0bar Myf_0 SVS_CP beta dm -1 1.0 0.0 1.0 0.0 ; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarf0_KSpi0KpKm.dec b/BaBar_2014/B0B0bar_Kstarf0_KSpi0KpKm.dec new file mode 100644 index 0000000..8700142 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarf0_KSpi0KpKm.dec @@ -0,0 +1,62 @@ +############################################################ +# # +# Decay: B0 -> f0 K*0 -> (K+K-)(Ks0pi0) # +# Ks0->pi+pi- # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +# patch by Andrei Gritsan (01-Mar-04): # +# Ks0->pi+pi- and ChangeMassMin f_0 # +# # +############################################################ +# +# patch f_0 -> K+K- mass cut off +ChangeMassMin f_0 0.9874 +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyK_S0 K_S0 +Alias Myf_0 f_0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# use a CP model similar to B->phiKs0, also S->VS +# +Decay MyB0 +1.0000 MyK*0 Myf_0 SVS_CP beta dm -1 1.0 0.0 1.0 0.0 ; +Enddecay +# +Decay MyB0bar +1.0000 MyK*0bar Myf_0 SVS_CP beta dm -1 1.0 0.0 1.0 0.0 ; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myf_0 +1.0000 K+ K- PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarf0_Kppim.dec b/BaBar_2014/B0B0bar_Kstarf0_Kppim.dec new file mode 100644 index 0000000..c106680 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarf0_Kppim.dec @@ -0,0 +1,62 @@ +################################################### +# # +# B0 -> K*0 f_0 + c.c. # +# | | # +# | -> pi+ pi- # +# | # +# -> K+ pi- # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# +# BEGIN sp5 patch (01-Mar-04) +# patch by Andreas Hoecker and Andrei Gritsan +# ( +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.50 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myf_0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyK*0 Myf_0 SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-K*0 Myf_0 SVS; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarf0_KppimKpKm.dec b/BaBar_2014/B0B0bar_Kstarf0_KppimKpKm.dec new file mode 100644 index 0000000..f7982f8 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarf0_KppimKpKm.dec @@ -0,0 +1,56 @@ +############################################################ +# # +# Decay: B0 -> f0 K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +# patch by Andrei Gritsan (01-Mar-04): # +# ChangeMassMin f_0 # +# # +############################################################ +# +# patch f_0 -> K+K- mass cut off +ChangeMassMin f_0 0.9874 +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias Myf_0 f_0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyK*0 Myf_0 SVS; +Enddecay +# +Decay MyB0bar +1.0000 MyK*0bar Myf_0 SVS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myf_0 +1.0000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarf0_KppimKsKs.dec b/BaBar_2014/B0B0bar_Kstarf0_KppimKsKs.dec new file mode 100644 index 0000000..be07b2b --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarf0_KppimKsKs.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Decay: B0 -> f0 K*0 -> (KsKs)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias Myf_0 f_0 +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyK*0 Myf_0 SVS; +Enddecay +# +Decay MyB0bar +1.0000 MyK*0bar Myf_0 SVS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myf_0 +1.0000 MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstargamma.dec b/BaBar_2014/B0B0bar_Kstargamma.dec new file mode 100644 index 0000000..1366f7c --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstargamma.dec @@ -0,0 +1,28 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar gamma # +# | # +# | # +# -> X # +# # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to K*0 gamma +# +Decay myantiB0 +1.0000 anti-K*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB0 +1.0000 K*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstargamma_AL_eq_AR.dec b/BaBar_2014/B0B0bar_Kstargamma_AL_eq_AR.dec new file mode 100644 index 0000000..1b486d4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstargamma_AL_eq_AR.dec @@ -0,0 +1,44 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0 gamma # +# | | # +# | ->K_s0 pi0 # +# -> X | # +# | # +# -> pi+ pi- # +# # +# generated with CP violating effect # +############################################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +ChargeConj MyB0 Myanti-B0 +Alias myK*S K*S +Alias myK_S0 K_S0 +Alias mypi0 pi0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 myK*S gamma SVP_CP beta dm 1 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0 myK*S gamma SVP_CP beta dm 1 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myK*S +1.0000 myK_S0 mypi0 VSS; +Enddecay +# +Decay mypi0 +1.00 gamma gamma PHSP; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstargamma_Kpi.dec b/BaBar_2014/B0B0bar_Kstargamma_Kpi.dec new file mode 100644 index 0000000..9a17c7f --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstargamma_Kpi.dec @@ -0,0 +1,43 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar gamma # +# | | # +# | ->K- pi+ # +# -> X # +# # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# the same for K*0 +# +Alias myantiK*0 anti-K*0 +Alias myK*0 K*0 +ChargeConj myK*0 myantiK*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to K*0 gamma +# +Decay myantiB0 +1.0000 myantiK*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB0 +1.0000 myK*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# force K*0 to go to K+ pi- +# +Decay myantiK*0 +1.0000 K- pi+ VSS; +Enddecay +Decay myK*0 +1.0000 K+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstargamma_Kspi0.dec b/BaBar_2014/B0B0bar_Kstargamma_Kspi0.dec new file mode 100644 index 0000000..74c8c50 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstargamma_Kspi0.dec @@ -0,0 +1,59 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar gamma # +# | | # +# | ->K_s0 pi0 # +# -> X | # +# | # +# -> pi+ pi- # +# # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# the same for K*0 +# +Alias myantiK*0 anti-K*0 +Alias myK*0 K*0 +ChargeConj myK*0 myantiK*0 +# +# and for K_S0 +# +Alias myK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to K*0 gamma +# +Decay myantiB0 +1.0000 myantiK*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB0 +1.0000 myK*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# force K*0 to go to K_S0 pi0 +# +Decay myantiK*0 +1.0000 myK_S0 pi0 VSS; +Enddecay +Decay myK*0 +1.0000 myK_S0 pi0 VSS; +Enddecay +# +# finally, force K_S0 to always decay to pi+ pi- +# +Decay myK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Kstargamma_SM.dec b/BaBar_2014/B0B0bar_Kstargamma_SM.dec new file mode 100644 index 0000000..8953a51 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstargamma_SM.dec @@ -0,0 +1,44 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0 gamma # +# | | # +# | ->K_s0 pi0 # +# -> X | # +# | # +# -> pi+ pi- # +# # +# generated with CP violating effect # +############################################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +ChargeConj MyB0 Myanti-B0 +Alias myK*S K*S +Alias myK_S0 K_S0 +Alias mypi0 pi0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0 myK*S gamma SVP_CP beta dm 1 0.0295296 0.0 0.9995640 0.0; +Enddecay +# +Decay Myanti-B0 +1.0 myK*S gamma SVP_CP beta dm 1 0.9995640 0.0 0.0295296 0.0; +Enddecay +# +Decay myK*S +1.0000 myK_S0 mypi0 VSS; +Enddecay +# +Decay mypi0 +1.00 gamma gamma PHSP; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_KstarpKmKs.dec b/BaBar_2014/B0B0bar_KstarpKmKs.dec new file mode 100644 index 0000000..e7b80d5 --- /dev/null +++ b/BaBar_2014/B0B0bar_KstarpKmKs.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*+ K- K0s + c.c. # +# |-> K0s pi+ # +# # +# Author: Josh Thompson # +# Created: 17 September 2003 # +# # +################################################### +# +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Alias MyK*+ K*+ +Alias MyK*- K*- + +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 MyB0bar B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyK*+ K- MyK_S0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 MyK*- K+ MyK_S0 PHSP; +Enddecay +# +Decay MyK*+ +1.000 MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +1.000 MyK_S0 pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarpi0.dec b/BaBar_2014/B0B0bar_Kstarpi0.dec new file mode 100644 index 0000000..1db6052 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi0.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*0 pi0 + c.c. # +# | # +# | # +# ---> K+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> K*0 pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*0 decays to K+ pi- (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*0 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-K*0 pi0 SVS; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1270.dec b/BaBar_2014/B0B0bar_Kstarpi_1270.dec new file mode 100644 index 0000000..795fdf7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1270.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B0 -> K_1+ pi- (66.67 %) + c.c. # +# | # +# | # +# -> K_10 pi0 (33.33 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B0 -> K_1 pi +# using a simple (S)calar to (V)ector-(S)calar model. +# The K_1 decays according to the official DECAY.DEC file. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 K_1+ pi- SVS; +0.3333 K_10 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +0.6667 K_1- pi+ SVS; +0.3333 anti-K_10 pi0 SVS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1400.dec b/BaBar_2014/B0B0bar_Kstarpi_1400.dec new file mode 100644 index 0000000..a396787 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1400.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B0 -> K'_1+ pi- (66.67 %) + c.c. # +# | # +# | # +# -> K'_10 pi0 (33.33 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B0 -> K'_1 pi +# using a simple (S)calar to (V)ector-(S)calar model. +# The K'_1 decays according to the official DECAY.DEC file. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 K'_1+ pi- SVS; +0.3333 K'_10 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +0.6667 K'_1- pi+ SVS; +0.3333 anti-K'_10 pi0 SVS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1430_spin0.dec b/BaBar_2014/B0B0bar_Kstarpi_1430_spin0.dec new file mode 100644 index 0000000..cf5da89 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1430_spin0.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B0 -> K_0*+ pi- (66.67 %) + c.c. # +# | # +# | # +# -> K_0*0 pi0 (33.33 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 7/Oct/2002 # +# # +################################################### +# +# Decay table for B0 -> K_0* pi +# using a simple phase-space model. +# The K_0* decays according to the official DECAY.DEC file. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 K_0*+ pi- PHSP; +0.3333 K_0*0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +0.6667 K_0*- pi+ PHSP; +0.3333 anti-K_0*0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1430_spin0_excl.dec b/BaBar_2014/B0B0bar_Kstarpi_1430_spin0_excl.dec new file mode 100644 index 0000000..6fd8abc --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1430_spin0_excl.dec @@ -0,0 +1,58 @@ +################################################### +# # +# B0 -> K_0*+ pi- (66.67 %) + c.c. # +# | |_ K+ pi- # +# | # +# -> K_0*0 pi0 (33.33 %) # +# |_ K+ pi0 # +# Author: Zhitang Yu yuzt@slac.stanford.edu # +# Created: 01/12/2004 # +# # +################################################### +# +# Decay table for B0 -> K_0* pi +# using a simple phase-space model. +# The K_0* decays to a charged K and a pion. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_0*+ K_0*+ +Alias MyK_0*- K_0*- +Alias MyK_0*0 K_0*0 +Alias Myanti-K_0*0 anti-K_0*0 + +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 MyK_0*+ pi- PHSP; +0.3333 MyK_0*0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +0.6667 MyK_0*- pi+ PHSP; +0.3333 Myanti-K_0*0 pi0 PHSP; +Enddecay + +Decay MyK_0*+ +1.0000 K+ pi0 PHSP; +Enddecay +# +Decay MyK_0*- +1.0000 K- pi0 PHSP; +Enddecay +# +Decay MyK_0*0 +1.0000 K+ pi- PHSP; +Enddecay +# +Decay Myanti-K_0*0 +1.0000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1430_spin2.dec b/BaBar_2014/B0B0bar_Kstarpi_1430_spin2.dec new file mode 100644 index 0000000..30935eb --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1430_spin2.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B0 -> K_2*+ pi- (66.67 %) + c.c. # +# | # +# | # +# -> K_2*0 pi0 (33.33 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B0 -> K_2* pi +# using a simple (S)calar to (T)ensor-(S)calar model. +# The K_2* decays according to the official DECAY.DEC file. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 K_2*+ pi- STS; +0.3333 K_2*0 pi0 STS; +Enddecay +# +Decay Myanti-B0 +0.6667 K_2*- pi+ STS; +0.3333 anti-K_2*0 pi0 STS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1430_spin2_excl.dec b/BaBar_2014/B0B0bar_Kstarpi_1430_spin2_excl.dec new file mode 100644 index 0000000..e308061 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1430_spin2_excl.dec @@ -0,0 +1,59 @@ +################################################### +# # +# B0 -> K_2*+ pi- (66.67 %) + c.c. # +# | |_ K+ pi0 # +# | # +# -> K_2*0 pi0 (33.33 %) # +# |_ K+ pi- # +# Author: Zhitang Yu yuzt@slac.stanford.edu # +# Created: 01/12/2004 # +# # +################################################### +# +# Decay table for B0 -> K_2* pi +# using a simple (S)calar to (T)ensor-(S)calar model. +# The K_2* decays to a charged K and a pion. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_2*+ K_2*+ +Alias MyK_2*- K_2*- +Alias MyK_2*0 K_2*0 +Alias Myanti-K_2*0 anti-K_2*0 + +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 MyK_2*+ pi- STS; +0.3333 MyK_2*0 pi0 STS; +Enddecay +# +Decay Myanti-B0 +0.6667 MyK_2*- pi+ STS; +0.3333 Myanti-K_2*0 pi0 STS; +Enddecay + +Decay MyK_2*+ +1.0000 K+ pi0 TSS; +Enddecay +# +Decay MyK_2*- +1.0000 K- pi0 TSS; +Enddecay +# +Decay MyK_2*0 +1.0000 K+ pi- TSS; +Enddecay +# +Decay Myanti-K_2*0 +1.0000 K- pi+ TSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1680.dec b/BaBar_2014/B0B0bar_Kstarpi_1680.dec new file mode 100644 index 0000000..c03e765 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1680.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B0 -> K''*+ pi- (66.67 %) + c.c. # +# | # +# | # +# -> K''*0 pi0 (33.33 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B0 -> K''* pi +# using a simple (S)calar to (V)ector-(S)calar model. +# The K''* decays according to the official DECAY.DEC file. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 K''*+ pi- SVS; +0.3333 K''*0 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +0.6667 K''*- pi+ SVS; +0.3333 anti-K''*0 pi0 SVS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_1680_excl.dec b/BaBar_2014/B0B0bar_Kstarpi_1680_excl.dec new file mode 100644 index 0000000..016d406 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_1680_excl.dec @@ -0,0 +1,59 @@ +################################################### +# # +# B0 -> K''*+ pi- (66.67 %) + c.c. # +# | |_ K+ pi0 # +# | # +# -> K''*0 pi0 (33.33 %) # +# |_ K+ pi- # +# Author: Zhitang Yu yuzt@slac.stanford.edu # +# Created: 01/12/2004 # +# # +################################################### +# +# Decay table for B0 -> K''* pi +# using a simple (S)calar to (V)ector-(S)calar model. +# The K''* decays to a charged K and a charged or neutral pion. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK''*+ K''*+ +Alias MyK''*- K''*- +Alias MyK''*0 K''*0 +Alias Myanti-K''*0 anti-K''*0 + +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +0.6667 MyK''*+ pi- SVS; +0.3333 MyK''*0 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +0.6667 MyK''*- pi+ SVS; +0.3333 Myanti-K''*0 pi0 SVS; +Enddecay + +Decay MyK''*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK''*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyK''*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K''*0 +1.0000 K- pi+ VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_2.dec b/BaBar_2014/B0B0bar_Kstarpi_2.dec new file mode 100644 index 0000000..6b6a2e4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_2.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> K*+ pi- + c.c. # +# | # +# | # +# ---> K+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> K*+ pi- +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K+ pi0 (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*+ pi- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*- pi+ SVS; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_KstarK0Lpi.dec b/BaBar_2014/B0B0bar_Kstarpi_KstarK0Lpi.dec new file mode 100644 index 0000000..8209a70 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_KstarK0Lpi.dec @@ -0,0 +1,45 @@ +################################################### +# # +# B0 -> K*+ pi- + c.c. # +# | # +# | # +# ---> K0L pi+ # +# # +# Author: Matt Graham # +# Created: 26 April 00 # +# # +################################################### +# +# Decay table for B0 -> K*+ pi- +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K0L pi+ (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*+ pi- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*- pi+ SVS; +Enddecay +# +Decay MyK*+ +1.000 K_L0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.000 K_L0 pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarpi_KstarK0pi.dec b/BaBar_2014/B0B0bar_Kstarpi_KstarK0pi.dec new file mode 100644 index 0000000..bfa15ea --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarpi_KstarK0pi.dec @@ -0,0 +1,45 @@ +################################################### +# # +# B0 -> K*+ pi- + c.c. # +# | # +# | # +# ---> K0S pi+ # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26 April 00 # +# # +################################################### +# +# Decay table for B0 -> K*+ pi- +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K0S pi+ (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*+ pi- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyK*- pi+ SVS; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarppimpi0.dec b/BaBar_2014/B0B0bar_Kstarppimpi0.dec new file mode 100644 index 0000000..10d15e2 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarppimpi0.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B0 -> Kstar+ pi- pi0 (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 05/20/2004 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- + +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*+ pi- pi0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 MyK*- pi+ pi0 PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Kstarrho_1680_Kpi_ln.dec b/BaBar_2014/B0B0bar_Kstarrho_1680_Kpi_ln.dec new file mode 100644 index 0000000..72a2ffd --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstarrho_1680_Kpi_ln.dec @@ -0,0 +1,68 @@ +################################################### +# # +# B0 -> K''*+ rho- (66.67 %) + c.c. # +# | | # +# | -> K+ pi0 # +# | # +# | # +# -> K''*0 rho0 (33.33 %) # +# | # +# -> K+ pi- # +# # +# Longitudinal polarisation only. # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B0 -> K''* rho +# using a simple (S)calar to (V)ector-(S)calar model. +# The K''* only decays to K+/- pi0 and K+/- pi-/+. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK''*+ K''*+ +Alias MyK''*- K''*- +Alias MyK''*0 K''*0 +Alias Myanti-K''*0 anti-K''*0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.0000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# We want twice as much K''*+ rho- as K''*0 rho0. +# But BR(K''*+ -> K+ pi0) is half of BR(K''*0 -> K+ pi-), +# so we use equal probabilities for B0 -> K''*+ pi- +# and B0 -> K''*0 pi0. +# +Decay MyB0 +0.5000 rho- MyK''*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.5000 rho0 MyK''*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Myanti-B0 +0.5000 rho+ MyK''*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.5000 rho0 Myanti-K''*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +# +Decay MyK''*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK''*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyK''*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K''*0 +1.0000 K- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Kstchi_c0_pipi.dec b/BaBar_2014/B0B0bar_Kstchi_c0_pipi.dec new file mode 100644 index 0000000..24adaf0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstchi_c0_pipi.dec @@ -0,0 +1,47 @@ +################################################### +# # +# B0 -> K*0 chi_c0 + C.C. # +# | | # +# | --> pi+ pi- # +# | # +# --> K+ pi- # +# # +# # +# Author: Huw Shorthouse huw@slac.stanford.edu # +# Created: 11/Feb/02 # +# # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mychi_c0 chi_c0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyK*0 Mychi_c0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-K*0 Mychi_c0 SVS; +Enddecay +# +Decay Mychi_c0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.000 pi- K+ VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 pi+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Kstgamma.dec b/BaBar_2014/B0B0bar_Kstgamma.dec new file mode 100644 index 0000000..fb634d6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Kstgamma.dec @@ -0,0 +1,63 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> K*0bar gamma # +# | | # +# | ->K- pi+ # +# -> X K_s0 pi0 # +# | # +# -> pi+ pi- # +# # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# the same for K*0 +# +Alias myantiK*0 anti-K*0 +Alias myK*0 K*0 +ChargeConj myK*0 myantiK*0 +# +# and for K0 +# +Alias myantiK0 anti-K0 +Alias myK0 K0 +ChargeConj myK0 myantiK0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to K*0 gamma +# +Decay myantiB0 +1.0000 myantiK*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB0 +1.0000 myK*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# force K*0 to go to K+ pi- and to K0 pi0 +# +Decay myantiK*0 +0.6657 K- pi+ VSS; +0.3323 myantiK0 pi0 VSS; +Enddecay +Decay myK*0 +0.6657 K+ pi- VSS; +0.3323 myK0 pi0 VSS; +Enddecay +# +# finally, force K0 to always decay to pi+ pi- +# +Decay myantiK0 +1.0000 pi+ pi- PHSP; +Enddecay +Decay myK0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_KstpRhom_KPi_ln.dec b/BaBar_2014/B0B0bar_KstpRhom_KPi_ln.dec new file mode 100644 index 0000000..a9f3ea8 --- /dev/null +++ b/BaBar_2014/B0B0bar_KstpRhom_KPi_ln.dec @@ -0,0 +1,40 @@ +################################################### +# # +# Decay: B0 -> K*+ rho- + cc (K*+ -> K+ pi0) # +# longitudinal # +# # +# Author: S. EMERY # +# Created: Aug 20 2003 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*- K*- +Alias MyK*+ K*+ + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 rho+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_KstpRhom_KPi_tr.dec b/BaBar_2014/B0B0bar_KstpRhom_KPi_tr.dec new file mode 100644 index 0000000..c5f5db3 --- /dev/null +++ b/BaBar_2014/B0B0bar_KstpRhom_KPi_tr.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: B0 -> K*+ rho- + cc (K*+ -> K+ pi0) # +# Transverse # +# # +# Author: S. Emery # +# Created: Aug 20 2003 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*- K*- +Alias MyK*+ K*+ + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 rho+ MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_OmegaPiPi_PiPiPi0.dec b/BaBar_2014/B0B0bar_OmegaPiPi_PiPiPi0.dec new file mode 100644 index 0000000..1c15011 --- /dev/null +++ b/BaBar_2014/B0B0bar_OmegaPiPi_PiPiPi0.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B0 -> omega pi+ pi- (non-resonant) # +# B0bar -> generic +cc # +# Omega -> pi+ pi- pi0 # +# # +# Author: Sandrine Emery # +# e-mail: emery@slac.stanford.edu # +# Created: 23/07/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyOm omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyOm pi+ pi- PHSP; +Enddecay +# +Decay MyB0bar +1.000 MyOm pi- pi+ PHSP; +Enddecay +# +Decay MyOm +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Pi0nunu.dec b/BaBar_2014/B0B0bar_Pi0nunu.dec new file mode 100644 index 0000000..5c0ac6a --- /dev/null +++ b/BaBar_2014/B0B0bar_Pi0nunu.dec @@ -0,0 +1,43 @@ +################################################################### +# B0 --> Pi0 nu nubar, B0bar - > generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: Paul D. Jackson 8/14/02 # +# Mail: JACK@SLAC.STANFORD.EDU # +################################################################### + +# +# +# Alias particles for specific decays +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +Alias mypi0 pi0 +# +Decay Upsilon(4S) +0.42000 B0 myantiB0 VSS_MIX dm; +0.42000 myB0 anti-B0 VSS_MIX dm; +0.08000 anti-B0 myantiB0 VSS_MIX dm; +0.08000 B0 myB0 VSS_MIX dm; +Enddecay +# +Decay myB0 +1.0000 mypi0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay myantiB0 +1.0000 mypi0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# + + +# +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2SKs2Pi0.dec b/BaBar_2014/B0B0bar_Psi2SKs2Pi0.dec new file mode 100644 index 0000000..59ab834 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2SKs2Pi0.dec @@ -0,0 +1,53 @@ +###################################################################### +# B0~ --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi0pi0 # +# | # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# Author: D. Payne 13/9/2000 # +# Mail: djpayne@slac.stanford.edu # +###################################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.1500 e+ e- PHOTOS VLL; +0.1500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi0 pi0 (100%) +Decay MyK0s +1.0000 pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_Psi2sKL.dec b/BaBar_2014/B0B0bar_Psi2sKL.dec new file mode 100644 index 0000000..1514f35 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKL.dec @@ -0,0 +1,54 @@ +################################################################### +# B0~ --> psi2s K0L B0 --> Generic # +# | # +# | # +# | # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# modified: D. Wright 2-12-99 +# Mail: WRIGHT@SLAC.STANFORD.EDU +################################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.1500 e+ e- PHOTOS VLL; +0.1500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKL_Psi2stoJpsiPi0Pi0.dec b/BaBar_2014/B0B0bar_Psi2sKL_Psi2stoJpsiPi0Pi0.dec new file mode 100644 index 0000000..9528dcc --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKL_Psi2stoJpsiPi0Pi0.dec @@ -0,0 +1,45 @@ +################################################################### +# B0~ --> psi2s K0L B0 --> Generic # +# | # +# |-->J/psi pi0 pi0 [100% (VVPIPI)] # +# | # +# |-->mu+mu-/e+e- [50%/50% (PHOTOS VLL)] # +# # +# + cc # +# # +# Author: S.Passaggio 06/02/2001 # +# (from analogous decay file by G.London/D.Wright) # +################################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +1.000 MyJ/psi pi0 pi0 VVPIPI; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKS.dec b/BaBar_2014/B0B0bar_Psi2sKS.dec new file mode 100644 index 0000000..f109b43 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKS.dec @@ -0,0 +1,56 @@ +################################################################### +# B0~ --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.1500 e+ e- PHOTOS VLL; +0.1500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKS_00.dec b/BaBar_2014/B0B0bar_Psi2sKS_00.dec new file mode 100644 index 0000000..a56f04f --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKS_00.dec @@ -0,0 +1,56 @@ +################################################################### +# B0~ --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +################################################################### +# +Define dm .464e12 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.1500 e+ e- PHOTOS VLL; +0.1500 mu+ mu- VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- VLL; +Enddecay +# Ks --> pi0 pi0 (100%) +Decay MyK0s +1.0000 pi0 pi0 PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKS_00_Psi2stoJpsiPi0Pi0.dec b/BaBar_2014/B0B0bar_Psi2sKS_00_Psi2stoJpsiPi0Pi0.dec new file mode 100644 index 0000000..ae42086 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKS_00_Psi2stoJpsiPi0Pi0.dec @@ -0,0 +1,51 @@ +################################################################### +# B0~ --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi0 pi0 # +# | # +# |-->J/psi pi0 pi0 # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: S. Passaggio 06/02/2001 # +# (from analogous decay file by G. London) # +################################################################### +# +Define dm .464e12 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +1.000 MyJ/psi pi0 pi0 VVPIPI; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- VLL; +Enddecay +# Ks --> pi0 pi0 (100%) +Decay MyK0s +1.0000 pi0 pi0 PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKS_Psi2stoJpsiEta.dec b/BaBar_2014/B0B0bar_Psi2sKS_Psi2stoJpsiEta.dec new file mode 100644 index 0000000..6c3f5c0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKS_Psi2stoJpsiEta.dec @@ -0,0 +1,51 @@ +################################################################### +# B0~ --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# | # +# |-->J/psi eta # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +1.000 MyJ/psi eta PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKS_Psi2stoJpsiPi0Pi0.dec b/BaBar_2014/B0B0bar_Psi2sKS_Psi2stoJpsiPi0Pi0.dec new file mode 100644 index 0000000..96547a9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKS_Psi2stoJpsiPi0Pi0.dec @@ -0,0 +1,50 @@ +################################################################### +# B0~ --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi+ pi- # +# | # +# |-->J/psi pi0 pi0 # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: S. Passaggio 06/02/2001 # +# (from analogous decay file by G. London) # +################################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +1.000 MyJ/psi pi0 pi0 VVPIPI; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKS_dgog=0.2_qop=1.04_z=0.dec b/BaBar_2014/B0B0bar_Psi2sKS_dgog=0.2_qop=1.04_z=0.dec new file mode 100644 index 0000000..50e7ee4 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKS_dgog=0.2_qop=1.04_z=0.dec @@ -0,0 +1,65 @@ +################################################################### +# anti-B0 --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.2 # +# |q/p| = 1.04 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +Define dgog 0.2 +Define absqop -1.04 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7761517725 +# arg(q/p) is consistent with sin2b=0.7 +# +# dGamma/Gamma definition is opposite between VSS_BMIX & SVS_CPLH +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 Mypsi(2S) MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mypsi(2S) MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +0.700 MyJ/psi pi+ pi- VVPIPI; +0.1500 e+ e- PHOTOS VLL; +0.1500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKS_dgog=0.4_qop=1.08_z=0.dec b/BaBar_2014/B0B0bar_Psi2sKS_dgog=0.4_qop=1.08_z=0.dec new file mode 100644 index 0000000..02f72f7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKS_dgog=0.4_qop=1.08_z=0.dec @@ -0,0 +1,65 @@ +################################################################### +# anti-B0 --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# NON STANDARD MODEL # +# Delta(Gamma)/Gamma=0.4 # +# |q/p| = 1.08 # +# # +# Author: F. Sandrelli # +# Created: 20/March/02 # +################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK0s K_S0 +Define dgog 0.4 +Define absqop -1.08 +# |q/p| is negative because of opposite def. btw PhysBook & formula in SVSCPLH/VSSBMIX +Define argqop -0.7783059311 +# arg(q/p) is consistent with sin2b=0.7 +# +# dGamma/Gamma definition is opposite between VSS_BMIX & SVS_CPLH +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm dgog absqop; +Enddecay +# +# Phase difference between Af and Afbar should be Pi to enforce the CP eigenvalue (-1) +Decay MyB0 +1.0000 Mypsi(2S) MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mypsi(2S) MyK0s SVS_CPLH dm dgog absqop argqop 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +0.700 MyJ/psi pi+ pi- VVPIPI; +0.1500 e+ e- PHOTOS VLL; +0.1500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKs_All.dec b/BaBar_2014/B0B0bar_Psi2sKs_All.dec new file mode 100644 index 0000000..993b70c --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKs_All.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: anti-B0 -> psi(2S) K0s, B0 -> X # +# |-> X |->pi+pi- # +# # +# # +# + cc # +# # +# Author: R. Faccini # +# Created: 14/Aug/01 # +# Mail: rfaccini@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 psi(2S) MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 psi(2S) MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKstar_KpPim_RunIpIIPol.dec b/BaBar_2014/B0B0bar_Psi2sKstar_KpPim_RunIpIIPol.dec new file mode 100644 index 0000000..4fae429 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKstar_KpPim_RunIpIIPol.dec @@ -0,0 +1,67 @@ +#################################################################### +# B0~ --> psi2s K*0~ B0 --> Generic # +# | |-->K- pi+ # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +# Made from B0B0bar_Psi2sKstar_chgd.dec, updated with runI+II # +# J/Psi K* polarisation. Marc Verderi, Philippe Grenier 01 Jun 2004# +# Only Psi2s decay to leptons # +#################################################################### +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyKstar0 K*0 +Alias Myanti-Kstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) Myanti-Kstar0 SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# psi2s --> e+e-/mu+mu- (100%) +Decay Mypsi(2S) +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# K* --> K+ pi- (100%) +Decay MyKstar0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-Kstar0 +1.0000 K- pi+ VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKstar_KsPi0_RunIpIIPol.dec b/BaBar_2014/B0B0bar_Psi2sKstar_KsPi0_RunIpIIPol.dec new file mode 100644 index 0000000..c7d87b0 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKstar_KsPi0_RunIpIIPol.dec @@ -0,0 +1,74 @@ +#################################################################### +# B0~ --> psi2s K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU # +# Made from B0B0bar_Psi2sKstar_sp3.dec. Updated with runI+II # +# J/Psi K* polarisation. Marc Verderi, Philippe Grenier 01 Jun 2004# +# Only Psi2s decay to leptons # +#################################################################### +# +# +# sin2beta = 0.731: (world average at that time) +# ----------------- +Define beta 0.41 +# +# Define the transversity amplitudes: +# ----------------------------------- +# Values measured by Babar (BAD#673/752) +Define Aplus 0.4517 +Define Azero 1.0640 +Define Aminus 0.4796 +# +Define phAplus 3.55 +Define phAzero 0.00 +Define phAminus 2.96 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyantiKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi2s --> e+e-/mu+mu- (100%) +Decay Mypsi(2S) +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKstar_chgd.dec b/BaBar_2014/B0B0bar_Psi2sKstar_chgd.dec new file mode 100644 index 0000000..f88b05e --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKstar_chgd.dec @@ -0,0 +1,76 @@ +################################################################### +# B0~ --> psi2s K*0~ B0 --> Generic # +# | |-->K- pi+ # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyKstar0 K*0 +Alias Myanti-Kstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyKstar0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) Myanti-Kstar0 SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# psi2s --> jpsipi+pi-/e+e-/mu+mu- (100%) +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- PHOTOS VLL; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJ/psi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K+ pi- (100%) +Decay MyKstar0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-Kstar0 +1.0000 K- pi+ VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_Psi2sKstar_sp3.dec b/BaBar_2014/B0B0bar_Psi2sKstar_sp3.dec new file mode 100644 index 0000000..632dcf6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi2sKstar_sp3.dec @@ -0,0 +1,70 @@ +################################################################### +# B0~ --> psi2s K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 28/1/99 # +# modified: J. Cohen-Tanugi 03/13/00: new name # +# Mail: COHEN@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyKstar0 SVV_CP beta dm 1.0 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyantiKstar0 SVV_CP beta dm 1.0 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# psi2s --> jpsipi+pi-/e+e-/mu+mu- (100%) +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- PHOTOS VLL; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyJ/psi +0.50000 mu+ mu- PHOTOS VLL; +0.50000 e+ e- PHOTOS VLL; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_Psi3770D0D0KpiK3pi_K.dec b/BaBar_2014/B0B0bar_Psi3770D0D0KpiK3pi_K.dec new file mode 100644 index 0000000..45f1f31 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi3770D0D0KpiK3pi_K.dec @@ -0,0 +1,131 @@ +################################################################### +# B0 --> psi(3770) K0s B0B --> Generic # +# | # +# | # +# |-->D0 D0B # +# # +# D0 -> K- pi+ # +# D0B -> K+ 3pi # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D0D0 K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyB0 +1.000 MyPsi_D0D0 MyKs SVS; +Enddecay +CDecay MyB0B +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bk3pi VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Psi3770D0D0KpiKpi_K.dec b/BaBar_2014/B0B0bar_Psi3770D0D0KpiKpi_K.dec new file mode 100644 index 0000000..970adcd --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi3770D0D0KpiKpi_K.dec @@ -0,0 +1,131 @@ +################################################################### +# B0 --> psi(3770) K0s B0B --> Generic # +# | # +# | # +# |-->D0 D0B # +# # +# D0 -> K- pi+ # +# D0B -> K+ pi- # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D0D0 K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyB0 +1.000 MyPsi_D0D0 MyKs SVS; +Enddecay +CDecay MyB0B +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bkpi VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Psi3770D0D0KpiKpipi0_K.dec b/BaBar_2014/B0B0bar_Psi3770D0D0KpiKpipi0_K.dec new file mode 100644 index 0000000..328fe5c --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi3770D0D0KpiKpipi0_K.dec @@ -0,0 +1,131 @@ +################################################################### +# B0 --> psi(3770) K0s B0B --> Generic # +# | # +# | # +# |-->D0 D0B # +# # +# D0 -> K- pi+ # +# D0B -> K+ pi- pi0 # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D0D0 K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyB0 +1.000 MyPsi_D0D0 MyKs SVS; +Enddecay +CDecay MyB0B +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bkpipi0 VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Psi3770DpDm_K.dec b/BaBar_2014/B0B0bar_Psi3770DpDm_K.dec new file mode 100644 index 0000000..2626b27 --- /dev/null +++ b/BaBar_2014/B0B0bar_Psi3770DpDm_K.dec @@ -0,0 +1,135 @@ +################################################################### +# B0 --> psi(3770) K0s B0B --> Generic # +# | # +# | # +# |-->D+ D- # +# # +# D+ -> K- pi+ pi+ # +# D- -> K+ pi- pi- # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D0D0 K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyB0 +1.000 MyPsi_D+D- MyKs SVS; +Enddecay +CDecay MyB0B +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bk3pi VSS; +Enddecay +# +Decay MyPsi_D+D- +1.000 MyD+ MyD- VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Rho0Rho0Pi0.dec b/BaBar_2014/B0B0bar_Rho0Rho0Pi0.dec new file mode 100644 index 0000000..e04899d --- /dev/null +++ b/BaBar_2014/B0B0bar_Rho0Rho0Pi0.dec @@ -0,0 +1,29 @@ +################################################### +# # +# Decay: B0 -> rho0 rho0 pi0 + cc # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 rho0 rho0 pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 rho0 rho0 pi0 PHSP ; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Rho0f0.dec b/BaBar_2014/B0B0bar_Rho0f0.dec new file mode 100644 index 0000000..261d0db --- /dev/null +++ b/BaBar_2014/B0B0bar_Rho0f0.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> rho0 f_0 + c.c. # +# | # +# -> pi+ pi- # +# # +# # +# # +# Author: Gregory Schott schott@in2p3.fr # +# Created: 13/Feb/2004 # +# # +################################################### +# +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias Myf_0 f_0 +Define dm .464e12 +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 rho0 Myf_0 SVS; +Enddecay +# +Decay MyB0bar +1.0000 rho0 Myf_0 SVS; +Enddecay +# +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_RhoRho0K.dec b/BaBar_2014/B0B0bar_RhoRho0K.dec new file mode 100644 index 0000000..27c03d6 --- /dev/null +++ b/BaBar_2014/B0B0bar_RhoRho0K.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: B0 -> rho+ rho0 K- + cc # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 rho+ rho0 K- PHSP; +1.0000 rho- rho0 K+ PHSP; +Enddecay + +Decay MyB0 +1.0000 rho0 rho+ K- PHSP ; +1.0000 rho- rho0 K+ PHSP; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_RhomRho0pip.dec b/BaBar_2014/B0B0bar_RhomRho0pip.dec new file mode 100644 index 0000000..2058180 --- /dev/null +++ b/BaBar_2014/B0B0bar_RhomRho0pip.dec @@ -0,0 +1,26 @@ +################################################### +# # +# Decay: B0 -> rho- rho0 pi+ + cc # +# # +# Author: S. Emery # +# Created: 23/07/03 # +################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0000 rho+ rho0 pi- PHSP; +Enddecay + +Decay MyB0 +1.0000 rho0 rho- pi+ PHSP ; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_RhopRho0pim.dec b/BaBar_2014/B0B0bar_RhopRho0pim.dec new file mode 100644 index 0000000..5d164b1 --- /dev/null +++ b/BaBar_2014/B0B0bar_RhopRho0pim.dec @@ -0,0 +1,27 @@ +################################################### +# # +# Decay: B0 -> rho+ rho0 pi- + cc # +# # +# Author: S. Emery # +# Created: 23/07/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.0000 rho- rho0 pi+ PHSP; +Enddecay + +Decay MyB0 +1.0000 rho0 rho+ pi- PHSP ; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_V0PPP.dec b/BaBar_2014/B0B0bar_V0PPP.dec new file mode 100644 index 0000000..3dc56f4 --- /dev/null +++ b/BaBar_2014/B0B0bar_V0PPP.dec @@ -0,0 +1,73 @@ +################################################### +# # +# Decay: B0 -> V0 h- h+ pi0 / V0 pi0 pi0 pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 rho0 pi0 pi0 pi0 PHSP; +1.0000 MyK*0 pi0 pi0 pi0 PHSP; +1.0000 MyK*0bar pi0 pi0 pi0 PHSP; + +1.0000 rho0 pi+ pi- pi0 PHSP; +1.0000 rho0 K+ pi- pi0 PHSP; +1.0000 rho0 pi+ K- pi0 PHSP; +1.0000 rho0 K+ K- pi0 PHSP; + +1.0000 MyK*0 pi+ pi- pi0 PHSP; +1.0000 MyK*0 K+ pi- pi0 PHSP; +1.0000 MyK*0 pi+ K- pi0 PHSP; +#1.0000 MyK*0 K+ K- pi0 PHSP; + +1.0000 MyK*0bar pi+ pi- pi0 PHSP; +1.0000 MyK*0bar K+ pi- pi0 PHSP; +1.0000 MyK*0bar pi+ K- pi0 PHSP; +#1.0000 MyK*0bar K+ K- pi0 PHSP; +Enddecay + +Decay MyB0 +1.0000 rho0 pi0 pi0 pi0 PHSP; +1.0000 MyK*0 pi0 pi0 pi0 PHSP; +1.0000 MyK*0bar pi0 pi0 pi0 PHSP; + +1.0000 rho0 pi+ pi- pi0 PHSP; +1.0000 rho0 K+ pi- pi0 PHSP; +1.0000 rho0 pi+ K- pi0 PHSP; +1.0000 rho0 K+ K- pi0 PHSP; + +1.0000 MyK*0 pi+ pi- pi0 PHSP; +1.0000 MyK*0 K+ pi- pi0 PHSP; +1.0000 MyK*0 pi+ K- pi0 PHSP; +#1.0000 MyK*0 K+ K- pi0 PHSP; + +1.0000 MyK*0bar pi+ pi- pi0 PHSP; +1.0000 MyK*0bar K+ pi- pi0 PHSP; +1.0000 MyK*0bar pi+ K- pi0 PHSP; +#1.0000 MyK*0bar K+ K- pi0 PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_VpPPP.dec b/BaBar_2014/B0B0bar_VpPPP.dec new file mode 100644 index 0000000..f50cdfc --- /dev/null +++ b/BaBar_2014/B0B0bar_VpPPP.dec @@ -0,0 +1,111 @@ +################################################### +# # +# Decay: B0 -> V+ h- h+ h- / V+ h- pi0 pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.0000 rho+ pi- pi0 pi0 PHSP; +1.0000 rho+ K- pi0 pi0 PHSP; +1.0000 MyK*+ pi- pi0 pi0 PHSP; +1.0000 MyK*+ K- pi0 pi0 PHSP; + +1.0000 rho+ pi- pi+ pi- PHSP; +1.0000 rho+ K- pi+ pi- PHSP; +1.0000 rho+ pi- K+ pi- PHSP; +1.0000 rho+ K- K+ pi- PHSP; +1.0000 rho+ K- pi+ K- PHSP; +#1.0000 rho+ K- K+ K- PHSP; + +1.0000 MyK*+ pi- pi+ pi- PHSP; +1.0000 MyK*+ K- pi+ pi- PHSP; +1.0000 MyK*+ pi- K+ pi- PHSP; +#1.0000 MyK*+ K- K+ pi- PHSP; +#1.0000 MyK*+ K- pi+ K- PHSP; +#1.0000 MyK*+ K- K+ K- PHSP; + +1.0000 rho- pi+ pi0 pi0 PHSP; +1.0000 rho- K+ pi0 pi0 PHSP; +1.0000 MyK*- pi+ pi0 pi0 PHSP; +1.0000 MyK*- K+ pi0 pi0 PHSP; + +1.0000 rho- pi+ pi+ pi- PHSP; +1.0000 rho- K+ pi+ pi- PHSP; +1.0000 rho- pi+ K- pi+ PHSP; +1.0000 rho- K+ K+ pi- PHSP; +1.0000 rho- K+ pi+ K- PHSP; +#1.0000 rho- K+ K+ K- PHSP; + +1.0000 MyK*- pi+ pi+ pi- PHSP; +1.0000 MyK*- K+ pi+ pi- PHSP; +1.0000 MyK*- pi+ K- pi+ PHSP; +#1.0000 MyK*- K+ K+ pi- PHSP; +#1.0000 MyK*- K+ pi+ K- PHSP; +#1.0000 MyK*- K+ K+ K- PHSP; +Enddecay + +Decay MyB0 +1.0000 rho+ pi- pi0 pi0 PHSP; +1.0000 rho+ K- pi0 pi0 PHSP; +1.0000 MyK*+ pi- pi0 pi0 PHSP; +1.0000 MyK*+ K- pi0 pi0 PHSP; + +1.0000 rho+ pi- pi+ pi- PHSP; +1.0000 rho+ K- pi+ pi- PHSP; +1.0000 rho+ pi- K+ pi- PHSP; +1.0000 rho+ K- K+ pi- PHSP; +1.0000 rho+ K- pi+ K- PHSP; +#1.0000 rho+ K- K+ K- PHSP; + +1.0000 MyK*+ pi- pi+ pi- PHSP; +1.0000 MyK*+ K- pi+ pi- PHSP; +1.0000 MyK*+ pi- K+ pi- PHSP; +#1.0000 MyK*+ K- K+ pi- PHSP; +#1.0000 MyK*+ K- pi+ K- PHSP; +#1.0000 MyK*+ K- K+ K- PHSP; + +1.0000 rho- pi+ pi0 pi0 PHSP; +1.0000 rho- K+ pi0 pi0 PHSP; +1.0000 MyK*- pi+ pi0 pi0 PHSP; +1.0000 MyK*- K+ pi0 pi0 PHSP; + +1.0000 rho- pi+ pi+ pi- PHSP; +1.0000 rho- K+ pi+ pi- PHSP; +1.0000 rho- pi+ K- pi+ PHSP; +1.0000 rho- K+ K+ pi- PHSP; +1.0000 rho- K+ pi+ K- PHSP; +#1.0000 rho- K+ K+ K- PHSP; + +1.0000 MyK*- pi+ pi+ pi- PHSP; +1.0000 MyK*- K+ pi+ pi- PHSP; +1.0000 MyK*- pi+ K- pi+ PHSP; +#1.0000 MyK*- K+ K+ pi- PHSP; +#1.0000 MyK*- K+ pi+ K- PHSP; +#1.0000 MyK*- K+ K+ K- PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_XddgammaExp480.dec b/BaBar_2014/B0B0bar_XddgammaExp480.dec new file mode 100644 index 0000000..629d9c9 --- /dev/null +++ b/BaBar_2014/B0B0bar_XddgammaExp480.dec @@ -0,0 +1,76 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xdd, anti-Xdd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xdd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xdd 3*Charge: +JetSetPar KCHG(458,1)=0 +# Set Xdd color information: +JetSetPar KCHG(458,2)=0 +# Set Xdd particle/antiparticle distinction: +JetSetPar KCHG(458,3)=1 +# Set Xdd mass: +JetSetPar PMAS(458,1)=1.600 +# Set Xdd width (sigma): +JetSetPar PMAS(458,2)=0.500 +# Set Xdd truncation: +JetSetPar PMAS(458,3)=2.000 +# Set Xdd name: +JetSetPar CHAF(458)=Xdd +# Set Xdd so it can decay: +JetSetPar MDCY(458,1)=1 +# Set decay table entry pt for Xdd: +JetSetPar MDCY(458,2)=1157 +# Number of decay channels for Xdd: +JetSetPar MDCY(458,3)=1 +# Switch on Xdd decay +JetSetPar MDME(1157,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1157,2)=11 +# Xdd decays into two quarks a d and an anti-s +JetSetPar KFDP(1157,1)=-1 +JetSetPar KFDP(1157,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xdd gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xdd gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay + +Decay Xdd +1.00000 d anti-d JETSET 11; +Enddecay + +Decay anti-Xdd +1.00000 anti-d d JETSET 11; +Enddecay + +Decay Xdu +1.00000 u anti-d JETSET 11; +Enddecay + +Decay anti-Xdu +1.00000 anti-u d JETSET 11; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_Xenu_Yenu.dec b/BaBar_2014/B0B0bar_Xenu_Yenu.dec new file mode 100644 index 0000000..046f96d --- /dev/null +++ b/BaBar_2014/B0B0bar_Xenu_Yenu.dec @@ -0,0 +1,163 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> X e nu +# -----> Y e nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Last change 15 Oct 2000 +############################################################################### + +## use the world average value reported at the Lepton-Photon 99 conference: +## ( http://www.cern.ch/LEPBOSC/combined_results/stanford_1999/ ) +## +## delta(m) = 0.473 +- 0.016 /ps + + +## define aliases with restricted decay modes (which are specified below) + +Alias B0-SL-e B0 +Alias B0-SL-mu B0 + +Alias anti-B0-SL-e anti-B0 +Alias anti-B0-SL-mu anti-B0 + +## define charge conjugate relationships between aliases + +ChargeConj B0-SL-e anti-B0-SL-e +ChargeConj B0-SL-mu anti-B0-SL-mu + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.823578 B0-SL-e anti-B0-SL-e VSS_MIX dm; + 0.088211 anti-B0-SL-e anti-B0-SL-e VSS_MIX dm; + 0.088211 B0-SL-e B0-SL-e VSS_MIX dm; +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-e + +# b -> c e+ nu (10.4%) + + 0.0490 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- e+ nu_e PHOTOS ISGW2; + 0.0040 D_1- e+ nu_e PHOTOS ISGW2; + 0.0040 D_0*- e+ nu_e PHOTOS ISGW2; + 0.0070 D'_1- e+ nu_e PHOTOS ISGW2; + 0.0070 D_2*- e+ nu_e PHOTOS ISGW2; + 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0806%) + + 0.000064 pi- e+ nu_e PHOTOS ISGW2; + 0.000250 rho- e+ nu_e PHOTOS ISGW2; + 0.000274 a_1- e+ nu_e PHOTOS ISGW2; + 0.000170 b_1- e+ nu_e PHOTOS ISGW2; + 0.000024 a_0- e+ nu_e PHOTOS ISGW2; + 0.000024 a_2- e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-mu + +# b -> c mu+ nu (10.4%) + + 0.0490 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + 0.000064 pi- mu+ nu_mu PHOTOS ISGW2; + 0.000250 rho- mu+ nu_mu PHOTOS ISGW2; + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-e + +# b -> c e- nu (10.4%) + + 0.0490 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + 0.000064 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-mu + +# b -> c mu- nu (10.4%) + + 0.0490 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0806%) + + 0.000064 pi+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000250 rho+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000274 a_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000170 b_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_0+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_2+ mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Xenu_Yenu_new.dec b/BaBar_2014/B0B0bar_Xenu_Yenu_new.dec new file mode 100644 index 0000000..bde0645 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xenu_Yenu_new.dec @@ -0,0 +1,86 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | `-> X e nu +# `-----> Y e nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Modified D. Best (best@slac.stanford.edy): remove all aliases (BMIX problem) +# Modified D. Best (best@slac.stanford.edy): update some branching ratios +# Last change: 07 May 2003 +############################################################################### + + +Decay Upsilon(4S) + 1.00 B0 anti-B0 VSS_BMIX dm; +Enddecay + +Decay B0 + +# b -> c e+ nu (10.4%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.0460 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0211 D- e+ nu_e PHOTOS ISGW2; + + # sources for those unknown + 0.0040 D_1- e+ nu_e PHOTOS ISGW2; + 0.0040 D_0*- e+ nu_e PHOTOS ISGW2; + 0.0070 D'_1- e+ nu_e PHOTOS ISGW2; + 0.0070 D_2*- e+ nu_e PHOTOS ISGW2; + 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0806%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.00018 pi- e+ nu_e PHOTOS ISGW2; + 0.00026 rho- e+ nu_e PHOTOS ISGW2; + + # sources for those unknown + 0.000274 a_1- e+ nu_e PHOTOS ISGW2; + 0.000170 b_1- e+ nu_e PHOTOS ISGW2; + 0.000024 a_0- e+ nu_e PHOTOS ISGW2; + 0.000024 a_2- e+ nu_e PHOTOS ISGW2; + +Enddecay + + +Decay anti-B0 + +# b -> c e- nu (10.4%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.0460 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0211 D+ e- anti-nu_e PHOTOS ISGW2; + + # sources for those unknown + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.00018 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.00026 rho+ e- anti-nu_e PHOTOS ISGW2; + + # sources for those unknown + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_Xenu_Ymunu.dec b/BaBar_2014/B0B0bar_Xenu_Ymunu.dec new file mode 100644 index 0000000..1f5c9a7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xenu_Ymunu.dec @@ -0,0 +1,164 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> X e nu +# -----> Y mu nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Last change 15 Oct 2000 +############################################################################### + +## use the world average value reported at the Lepton-Photon 99 conference: +## ( http://www.cern.ch/LEPBOSC/combined_results/stanford_1999/ ) +## +## delta(m) = 0.473 +- 0.016 /ps + + +## define aliases with restricted decay modes (which are specified below) + +Alias B0-SL-e B0 +Alias B0-SL-mu B0 + +Alias anti-B0-SL-e anti-B0 +Alias anti-B0-SL-mu anti-B0 + +## define charge conjugate relationships between aliases + +ChargeConj B0-SL-e anti-B0-SL-e +ChargeConj B0-SL-mu anti-B0-SL-mu + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.411789 B0-SL-e anti-B0-SL-mu VSS_MIX dm; + 0.411789 B0-SL-mu anti-B0-SL-e VSS_MIX dm; + 0.088211 anti-B0-SL-e anti-B0-SL-mu VSS_MIX dm; + 0.088211 B0-SL-e B0-SL-mu VSS_MIX dm; +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-e + +# b -> c e+ nu (10.4%) + + 0.0490 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- e+ nu_e PHOTOS ISGW2; + 0.0040 D_1- e+ nu_e PHOTOS ISGW2; + 0.0040 D_0*- e+ nu_e PHOTOS ISGW2; + 0.0070 D'_1- e+ nu_e PHOTOS ISGW2; + 0.0070 D_2*- e+ nu_e PHOTOS ISGW2; + 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0806%) + + 0.000064 pi- e+ nu_e PHOTOS ISGW2; + 0.000250 rho- e+ nu_e PHOTOS ISGW2; + 0.000274 a_1- e+ nu_e PHOTOS ISGW2; + 0.000170 b_1- e+ nu_e PHOTOS ISGW2; + 0.000024 a_0- e+ nu_e PHOTOS ISGW2; + 0.000024 a_2- e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-mu + +# b -> c mu+ nu (10.4%) + + 0.0490 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + 0.000064 pi- mu+ nu_mu PHOTOS ISGW2; + 0.000250 rho- mu+ nu_mu PHOTOS ISGW2; + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-e + +# b -> c e- nu (10.4%) + + 0.0490 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + 0.000064 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-mu + +# b -> c mu- nu (10.4%) + + 0.0490 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0806%) + + 0.000064 pi+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000250 rho+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000274 a_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000170 b_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_0+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_2+ mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Xenu_Ymunu_new.dec b/BaBar_2014/B0B0bar_Xenu_Ymunu_new.dec new file mode 100644 index 0000000..2edab20 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xenu_Ymunu_new.dec @@ -0,0 +1,83 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> X e nu +# -----> Y mu nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Modified D. Best (best@slac.stanford.edu): remove all aliases (BMIX problem) +# Modified D. Best (best@slac.stanford.edu): update some branching ratios +# Last change: 07 May 2003 +############################################################################### + +Decay Upsilon(4S) + 1.00 B0 anti-B0 VSS_BMIX dm; +Enddecay + +Decay B0 + +# b -> c mu+ nu (10.4%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.0460 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0211 D- mu+ nu_mu PHOTOS ISGW2; + + # source of those unknown + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.00018 pi- mu+ nu_mu PHOTOS ISGW2; + 0.00026 rho- mu+ nu_mu PHOTOS ISGW2; + + # sources for those unknown + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + + +Decay anti-B0 + +# b -> c e- nu (10.4%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.0460 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0211 D+ e- anti-nu_e PHOTOS ISGW2; + + # source of those unknown + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.00018 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.00026 rho+ e- anti-nu_e PHOTOS ISGW2; + + # sources for those unknown + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Xenu_noSLemu.dec b/BaBar_2014/B0B0bar_Xenu_noSLemu.dec new file mode 100644 index 0000000..3505181 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xenu_noSLemu.dec @@ -0,0 +1,645 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> X e nu +# -----> non-SL +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Last change 15 Nov 1999 +############################################################################### + +## use the world average value reported at the Lepton-Photon 99 conference: +## ( http://www.cern.ch/LEPBOSC/combined_results/stanford_1999/ ) +## +## delta(m) = 0.473 +- 0.016 /ps + + +## define aliases with restricted decay modes (which are specified below) + +Alias B0-SL-e B0 +Alias B0-SL-mu B0 +Alias B0-no-SL B0 + +Alias anti-B0-SL-e anti-B0 +Alias anti-B0-SL-mu anti-B0 +Alias anti-B0-no-SL anti-B0 + +## define charge conjugate relationships between aliases + +ChargeConj B0-SL-e anti-B0-SL-e +ChargeConj B0-SL-mu anti-B0-SL-mu +ChargeConj B0-no-SL anti-B0-no-SL + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.411789 B0-SL-e anti-B0-no-SL VSS_MIX dm; + 0.411789 B0-no-SL anti-B0-SL-e VSS_MIX dm; + 0.088211 anti-B0-SL-e anti-B0-no-SL VSS_MIX dm; + 0.088211 B0-SL-e B0-no-SL VSS_MIX dm; +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-e + +# b -> c e+ nu (10.4%) + + 0.0490 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- e+ nu_e PHOTOS ISGW2; + 0.0040 D_1- e+ nu_e PHOTOS ISGW2; + 0.0040 D_0*- e+ nu_e PHOTOS ISGW2; + 0.0070 D'_1- e+ nu_e PHOTOS ISGW2; + 0.0070 D_2*- e+ nu_e PHOTOS ISGW2; + 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0806%) + + 0.000064 pi- e+ nu_e PHOTOS ISGW2; + 0.000250 rho- e+ nu_e PHOTOS ISGW2; + 0.000274 a_1- e+ nu_e PHOTOS ISGW2; + 0.000170 b_1- e+ nu_e PHOTOS ISGW2; + 0.000024 a_0- e+ nu_e PHOTOS ISGW2; + 0.000024 a_2- e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-mu + +# b -> c mu+ nu (10.4%) + + 0.0490 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + 0.000064 pi- mu+ nu_mu PHOTOS ISGW2; + 0.000250 rho- mu+ nu_mu PHOTOS ISGW2; + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-e + +# b -> c e- nu (10.4%) + + 0.0490 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + 0.000064 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-mu + +# b -> c mu- nu (10.4%) + + 0.0490 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0806%) + + 0.000064 pi+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000250 rho+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000274 a_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000170 b_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_0+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_2+ mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-no-SL + +# JETSET misc fragmentation (42.664%) + + 0.32474 u anti-d anti-c d JETSET 48; + 0.04600 u anti-d anti-c d JETSET 25; + 0.02100 u anti-s anti-c d JETSET 23; + 0.01800 u anti-c anti-d d JETSET 48; + 0.00090 u anti-c anti-s d JETSET 48; + 0.00000 c anti-s anti-c d JETSET 13; + 0.00600 c anti-d anti-c d JETSET 13; + 0.00600 u anti-d anti-u d JETSET 48; + 0.00400 c anti-s anti-u d JETSET 48; + +# b -> c (sc=) --> D Ds X (10.14%) + + 0.0096 D- D_s+ PHSP; + 0.0102 D*- D_s+ SVS; + 0.0120 D_1- D_s+ SVS; + 0.0094 D_s*+ D- SVS; + 0.0174 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0030 D_s+ D- pi0 PHSP; + 0.0060 D_s+ anti-D0 pi- PHSP; + 0.0030 D_s*+ D- pi0 PHSP; + 0.0060 D_s*+ anti-D0 pi- PHSP; + 0.0050 D_s+ D- pi- pi+ PHSP; + 0.0037 D_s+ D- pi0 pi0 PHSP; + 0.0037 D_s+ anti-D0 pi- pi0 PHSP; + 0.0050 D_s*+ D- pi- pi+ PHSP; + 0.0037 D_s*+ D- pi0 pi0 PHSP; + 0.0037 D_s*+ anti-D0 pi- pi0 PHSP; + +# b -> c (sc=) --> D D= K X (8.0%) + + 0.0025 D- D0 K+ PHSP; + 0.0025 D- D+ K0 PHSP; + 0.0025 D- D0 K*+ PHSP; + 0.0025 D- D+ K*0 PHSP; + + 0.0050 D*- D0 K+ PHSP; + 0.0050 D*- D+ K0 PHSP; + 0.0050 D- D*0 K+ PHSP; + 0.0050 D- D*+ K0 PHSP; + + 0.0025 D*- D0 K*+ PHSP; + 0.0025 D*- D+ K*0 PHSP; + 0.0025 D- D*0 K*+ PHSP; + 0.0025 D- D*+ K*0 PHSP; + + 0.0150 D*- D*0 K+ PHSP; + 0.0150 D*- D*+ K0 PHSP; + 0.0050 D*- D*0 K*+ PHSP; + 0.0050 D*- D*+ K*0 PHSP; + +# B -> D(*) X Exclusive modes (6.67%) + + 0.0027 D*- pi+ SVS; + 0.0030 D- pi+ PHSP; + 0.0082 rho+ D- SVS; + 0.0070 rho+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 D- pi+ pi0 PHSP; + 0.0070 D*- pi+ pi0 PHSP; + 0.0010 anti-D0 pi- pi+ PHSP; + 0.0010 anti-D*0 pi- pi+ PHSP; + 0.0005 anti-D*0 pi0 pi0 PHSP; + + 0.0060 a_1+ D- SVS; + 0.0011 D- rho0 pi+ PHSP; + 0.0011 D- rho+ pi0 PHSP; + 0.0010 D- pi- pi+ pi+ PHSP; + 0.0010 D- pi0 pi+ pi0 PHSP; + 0.0010 anti-D0 pi- pi+ pi0 PHSP; + 0.0001 anti-D0 pi0 pi0 pi0 PHSP; + + 0.0122 a_1+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 D*- rho0 pi+ PHSP; + 0.0010 D*- rho+ pi0 PHSP; + 0.0077 D*- pi- pi+ pi+ PHSP; + 0.0010 D*- pi0 pi+ pi0 PHSP; + 0.0010 anti-D*0 pi- pi+ pi0 PHSP; + 0.0001 anti-D*0 pi0 pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + + 0.01000 anti-cd_0 ud_0 JETSET 23; + 0.03000 anti-cd_1 ud_1 JETSET 23; + +# b -> c tau+ nu (2.96%) + + 0.0160 D*- tau+ nu_tau ISGW2; + 0.0070 D- tau+ nu_tau ISGW2; + 0.0013 D_1- tau+ nu_tau ISGW2; + 0.0013 D_0*- tau+ nu_tau ISGW2; + 0.0020 D'_1- tau+ nu_tau ISGW2; + 0.0020 D_2*- tau+ nu_tau ISGW2; + +# Xi_c X (2.4%) + + 0.00600 anti-cs_0 ud_0 JETSET 23; + 0.01800 anti-cs_1 ud_1 JETSET 23; + +# B -> cc= s (1.94%) + + 0.0004 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0004 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00025 J/psi K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.00025 J/psi K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 J/psi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 J/psi K+ pi- PHSP; + 0.0005 J/psi K0 pi0 PHSP; + 0.0014 J/psi K0 pi- pi+ PHSP; + 0.0007 J/psi K0 pi0 pi0 PHSP; + 0.0007 J/psi K+ pi- pi0 PHSP; + 0.0005 J/psi anti-K'_10 PHSP; + 0.0005 J/psi anti-K_2*0 PHSP; + + 0.0003 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0003 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00025 psi(2S) K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.00025 psi(2S) K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 psi(2S) K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 psi(2S) K+ pi- PHSP; + 0.0002 psi(2S) K0 pi0 PHSP; + 0.0004 psi(2S) K0 pi- pi+ PHSP; + 0.0002 psi(2S) K0 pi0 pi0 PHSP; + 0.0002 psi(2S) K+ pi- pi0 PHSP; + + 0.0001 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0001 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00005 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00005 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0002 K*0T eta_c SVS; + 0.0002 eta_c K+ pi- PHSP; + 0.0001 eta_c K0 pi0 PHSP; + 0.0002 eta_c K0 pi- pi+ PHSP; + 0.0001 eta_c K0 pi0 pi0 PHSP; + 0.0001 eta_c K+ pi- pi0 PHSP; + + 0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0002 K*0T chi_c0 SVS; + 0.0002 chi_c0 K+ pi- PHSP; + 0.0001 chi_c0 K0 pi0 PHSP; + 0.0002 chi_c0 K0 pi- pi+ PHSP; + 0.0001 chi_c0 K0 pi0 pi0 PHSP; + 0.0001 chi_c0 K+ pi- pi0 PHSP; + + 0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0002 K*S chi_c1 SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0002 K*L chi_c1 SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0008 chi_c1 K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 chi_c1 K+ pi- PHSP; + 0.0002 chi_c1 K0 pi0 PHSP; + 0.0004 chi_c1 K0 pi- pi+ PHSP; + 0.0002 chi_c1 K0 pi0 pi0 PHSP; + 0.0002 chi_c1 K+ pi- pi0 PHSP; + + 0.0002 chi_c2 K_S0 PHSP; + 0.0002 chi_c2 K_L0 PHSP; + 0.00015 K*S chi_c2 PHSP; + 0.00015 K*L chi_c2 PHSP; + 0.0006 chi_c2 K*0T PHSP; + 0.0004 chi_c2 K+ pi- PHSP; + 0.0002 chi_c2 K0 pi0 PHSP; + 0.0004 chi_c2 K0 pi- pi+ PHSP; + 0.0002 chi_c2 K0 pi0 pi0 PHSP; + 0.0002 chi_c2 K+ pi- pi0 PHSP; + +# b-> c (dc=) (0.232%) + + 0.00045 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00081 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00081 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00025 D*+ D*- SVV_CP beta dm -1 0.62 0.0 1.05 0.0 0.25 0.0; + +# b -> u tau+ nu (0.0218%) + + 0.000021 pi- tau+ nu_tau ISGW2; + 0.000083 rho- tau+ nu_tau ISGW2; + 0.000090 a_1- tau+ nu_tau ISGW2; + 0.000008 b_1- tau+ nu_tau ISGW2; + 0.000008 a_0- tau+ nu_tau ISGW2; + 0.000008 a_2- tau+ nu_tau ISGW2; + +# B0 -> CP eigenstates (some exclusive b -> u) (0.011%) + + 0.00001 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.00001 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000056 pi- pi+ pi0 BTO3PI_CP dm alpha; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-no-SL + +# JETSET misc fragmentation (42.664%) + +0.32474 anti-u d c anti-d JETSET 48; +0.04600 anti-u d c anti-d JETSET 25; +0.02100 anti-u s c anti-d JETSET 23; +0.01800 anti-u c d anti-d JETSET 48; +0.00090 anti-u c s anti-d JETSET 48; +0.00000 anti-c s c anti-d JETSET 13; +0.00600 anti-c d c anti-d JETSET 13; +0.00600 anti-u d u anti-d JETSET 48; +0.00400 anti-c s u anti-d JETSET 48; + +# b -> c (sc=) --> D Ds X (10.14%) + +0.0096 D+ D_s- PHSP; +0.0102 D*+ D_s- SVS; +0.0120 D_1+ D_s- SVS; +0.0094 D_s*- D+ SVS; +0.0174 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0030 D_s- D+ pi0 PHSP; +0.0060 D_s- D0 pi+ PHSP; +0.0030 D_s*- D+ pi0 PHSP; +0.0060 D_s*- D0 pi+ PHSP; +0.0050 D_s- D+ pi+ pi- PHSP; +0.0037 D_s- D+ pi0 pi0 PHSP; +0.0037 D_s- D0 pi+ pi0 PHSP; +0.0050 D_s*- D+ pi+ pi- PHSP; +0.0037 D_s*- D+ pi0 pi0 PHSP; +0.0037 D_s*- D0 pi+ pi0 PHSP; + +# b -> c (sc=) --> D D= K X (8.0%) + +0.0025 D+ anti-D0 K- PHSP; +0.0025 D+ D- anti-K0 PHSP; +0.0025 D+ anti-D0 K*- PHSP; +0.0025 D+ D- anti-K*0 PHSP; +# +0.0050 D*+ anti-D0 K- PHSP; +0.0050 D*+ D- anti-K0 PHSP; +0.0050 D+ anti-D*0 K- PHSP; +0.0050 D+ D*- anti-K0 PHSP; +# +0.0025 D*+ anti-D0 K*- PHSP; +0.0025 D*+ D- anti-K*0 PHSP; +0.0025 D+ anti-D*0 K*- PHSP; +0.0025 D+ D*- anti-K*0 PHSP; +# +0.0150 D*+ anti-D*0 K- PHSP; +0.0150 D*+ D*- anti-K0 PHSP; +0.0050 D*+ anti-D*0 K*- PHSP; +0.0050 D*+ D*- anti-K*0 PHSP; + +# B -> D(*) X Exclusive modes (6.67%) + +0.0027 D*+ pi- SVS; +0.0030 D+ pi- PHSP; +0.0082 rho- D+ SVS; +0.0070 rho- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D+ pi- pi0 PHSP; +0.0070 D*+ pi- pi0 PHSP; +0.0010 D0 pi+ pi- PHSP; +0.0010 D*0 pi+ pi- PHSP; +0.0005 D*0 pi0 pi0 PHSP; +# +0.0060 a_1- D+ SVS; +0.0011 D+ rho0 pi- PHSP; +0.0011 D+ rho- pi0 PHSP; +0.0010 D+ pi+ pi- pi- PHSP; +0.0010 D+ pi0 pi- pi0 PHSP; +0.0010 D0 pi+ pi- pi0 PHSP; +0.0001 D0 pi0 pi0 pi0 PHSP; +# +0.0122 a_1- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D*+ rho0 pi- PHSP; +0.0010 D*+ rho- pi0 PHSP; +0.0077 D*+ pi+ pi- pi- PHSP; +0.0010 D*+ pi0 pi- pi0 PHSP; +0.0010 D*0 pi+ pi- pi0 PHSP; +0.0001 D*0 pi0 pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.01000 cd_0 anti-ud_0 JETSET 23; +0.03000 cd_1 anti-ud_1 JETSET 23; + +# b -> c tau- nu (2.96%) + +0.0160 D*+ tau- anti-nu_tau ISGW2; +0.0070 D+ tau- anti-nu_tau ISGW2; +0.0013 D_1+ tau- anti-nu_tau ISGW2; +0.0013 D_0*+ tau- anti-nu_tau ISGW2; +0.0020 D'_1+ tau- anti-nu_tau ISGW2; +0.0020 D_2*+ tau- anti-nu_tau ISGW2; + +# Xi_c X (2.4%) + +0.00600 cs_0 anti-ud_0 JETSET 23; +0.01800 cs_1 anti-ud_1 JETSET 23; + +# B -> cc= s (1.94%) + +0.0004 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0004 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00025 J/psi K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.00025 J/psi K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi K- pi+ PHSP; +0.0005 J/psi anti-K0 pi0 PHSP; +0.0014 J/psi anti-K0 pi+ pi- PHSP; +0.0007 J/psi anti-K0 pi0 pi0 PHSP; +0.0007 J/psi K- pi+ pi0 PHSP; +0.0005 J/psi K'_10 PHSP; +0.0005 J/psi K_2*0 PHSP; +# +0.0003 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0003 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00025 psi(2S) K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.00025 psi(2S) K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 psi(2S) anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) K- pi+ PHSP; +0.0002 psi(2S) anti-K0 pi0 PHSP; +0.0004 psi(2S) anti-K0 pi+ pi- PHSP; +0.0002 psi(2S) anti-K0 pi0 pi0 PHSP; +0.0002 psi(2S) K- pi+ pi0 PHSP; +# +0.0001 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0001 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0002 anti-K*0T eta_c SVS; +0.0002 eta_c K- pi+ PHSP; +0.0001 eta_c anti-K0 pi0 PHSP; +0.0002 eta_c anti-K0 pi+ pi- PHSP; +0.0001 eta_c anti-K0 pi0 pi0 PHSP; +0.0001 eta_c K- pi+ pi0 PHSP; +# +0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 anti-K*0T chi_c0 SVS; +0.0002 chi_c0 K- pi+ PHSP; +0.0001 chi_c0 anti-K0 pi0 PHSP; +0.0002 chi_c0 anti-K0 pi+ pi- PHSP; +0.0001 chi_c0 anti-K0 pi0 pi0 PHSP; +0.0001 chi_c0 K- pi+ pi0 PHSP; +# +0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 K*S chi_c1 SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0002 K*L chi_c1 SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0008 chi_c1 anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 K- pi+ PHSP; +0.0002 chi_c1 anti-K0 pi0 PHSP; +0.0004 chi_c1 anti-K0 pi+ pi- PHSP; +0.0002 chi_c1 anti-K0 pi0 pi0 PHSP; +0.0002 chi_c1 K- pi+ pi0 PHSP; +# +0.0002 chi_c2 K_S0 PHSP; +0.0002 chi_c2 K_L0 PHSP; +0.00015 K*S chi_c2 PHSP; +0.00015 K*L chi_c2 PHSP; +0.0006 chi_c2 anti-K*0T PHSP; +0.0004 chi_c2 K- pi+ PHSP; +0.0002 chi_c2 anti-K0 pi0 PHSP; +0.0004 chi_c2 anti-K0 pi+ pi- PHSP; +0.0002 chi_c2 anti-K0 pi0 pi0 PHSP; +0.0002 chi_c2 K- pi+ pi0 PHSP; +# +# +# +0.0000 phi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*S SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*L SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0000 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + +# b-> c (dc=) (0.232%) + +0.00045 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00081 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00081 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00025 D*+ D*- SVV_CP beta dm -1 0.62 0.0 1.05 0.0 0.25 0.0; + +# b -> u tau- nu (0.0218%) + +0.000021 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; + +# B0 -> CP eigenstates (some exclusive b -> u) (0.011%) + +0.00001 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.00001 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000056 pi- pi+ pi0 BTO3PI_CP dm alpha; +#0.00000108 K- pi+ pi0 BTOKPIPI_CP dm alpha beta; + +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_XipXim.dec b/BaBar_2014/B0B0bar_XipXim.dec new file mode 100644 index 0000000..ab6776b --- /dev/null +++ b/BaBar_2014/B0B0bar_XipXim.dec @@ -0,0 +1,51 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> Xi+ Xi- # +# (Xi- -> lambda pi- -> p pi- pi-) # +# # +# Author: Paul C. Bloom # +# Created: 30 December 2002 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyXi- Xi- +Alias Myanti-Xi+ anti-Xi+ +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 MyXi- Myanti-Xi+ PHSP; +Enddecay +# +Decay myAntiB0 +1.000 MyXi- Myanti-Xi+ PHSP; +Enddecay +# +Decay MyXi- +1.0000 MyLambda0 pi- PHSP; +Enddecay +# +Decay Myanti-Xi+ +1.0000 Myanti-Lambda0 pi+ PHSP; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.00 anti-p- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_Xmunu_Ymunu.dec b/BaBar_2014/B0B0bar_Xmunu_Ymunu.dec new file mode 100644 index 0000000..0681bc6 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xmunu_Ymunu.dec @@ -0,0 +1,163 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> X mu nu +# -----> Y mu nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Last change 15 Oct 2000 +############################################################################### + +## use the world average value reported at the Lepton-Photon 99 conference: +## ( http://www.cern.ch/LEPBOSC/combined_results/stanford_1999/ ) +## +## delta(m) = 0.473 +- 0.016 /ps + + +## define aliases with restricted decay modes (which are specified below) + +Alias B0-SL-e B0 +Alias B0-SL-mu B0 + +Alias anti-B0-SL-e anti-B0 +Alias anti-B0-SL-mu anti-B0 + +## define charge conjugate relationships between aliases + +ChargeConj B0-SL-e anti-B0-SL-e +ChargeConj B0-SL-mu anti-B0-SL-mu + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.823578 B0-SL-mu anti-B0-SL-mu VSS_MIX dm; + 0.088211 anti-B0-SL-mu anti-B0-SL-mu VSS_MIX dm; + 0.088211 B0-SL-mu B0-SL-mu VSS_MIX dm; +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-e + +# b -> c e+ nu (10.4%) + + 0.0490 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- e+ nu_e PHOTOS ISGW2; + 0.0040 D_1- e+ nu_e PHOTOS ISGW2; + 0.0040 D_0*- e+ nu_e PHOTOS ISGW2; + 0.0070 D'_1- e+ nu_e PHOTOS ISGW2; + 0.0070 D_2*- e+ nu_e PHOTOS ISGW2; + 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0806%) + + 0.000064 pi- e+ nu_e PHOTOS ISGW2; + 0.000250 rho- e+ nu_e PHOTOS ISGW2; + 0.000274 a_1- e+ nu_e PHOTOS ISGW2; + 0.000170 b_1- e+ nu_e PHOTOS ISGW2; + 0.000024 a_0- e+ nu_e PHOTOS ISGW2; + 0.000024 a_2- e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-mu + +# b -> c mu+ nu (10.4%) + + 0.0490 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + 0.000064 pi- mu+ nu_mu PHOTOS ISGW2; + 0.000250 rho- mu+ nu_mu PHOTOS ISGW2; + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-e + +# b -> c e- nu (10.4%) + + 0.0490 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + 0.000064 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-mu + +# b -> c mu- nu (10.4%) + + 0.0490 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0806%) + + 0.000064 pi+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000250 rho+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000274 a_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000170 b_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_0+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_2+ mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Xmunu_Ymunu_new.dec b/BaBar_2014/B0B0bar_Xmunu_Ymunu_new.dec new file mode 100644 index 0000000..65002e5 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xmunu_Ymunu_new.dec @@ -0,0 +1,87 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> X mu nu +# -----> Y mu nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Modified D. Best (best@fe.infn.it): remove all aliases (BMIX problem) +# Modified D. Best (best@fe.infn.it): update some branching ratios +# Last change: 07 May 2003 +############################################################################### + +Decay Upsilon(4S) + 1.00 B0 anti-B0 VSS_BMIX dm; +Enddecay + + +Decay B0 + +# b -> c mu+ nu (10.4%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.0460 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0211 D- mu+ nu_mu PHOTOS ISGW2; + + # source of those unknown + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.00018 pi- mu+ nu_mu PHOTOS ISGW2; + 0.00026 rho- mu+ nu_mu PHOTOS ISGW2; + + # sources for those unknown + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + + + +Decay anti-B0 + +# b -> c mu- nu (10.4%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.0460 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0211 D+ mu- anti-nu_mu PHOTOS ISGW2; + + # sources for those unknown + 0.0040 D_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0806%) + + # from PDG 2002 with ell nu, but e and mu taken to be the same + 0.00018 pi+ mu- anti-nu_mu PHOTOS ISGW2; + 0.00026 rho+ mu- anti-nu_mu PHOTOS ISGW2; + + # sources for those unknown + 0.000274 a_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000170 b_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_0+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_2+ mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_Xmunu_noSLemu.dec b/BaBar_2014/B0B0bar_Xmunu_noSLemu.dec new file mode 100644 index 0000000..e1568da --- /dev/null +++ b/BaBar_2014/B0B0bar_Xmunu_noSLemu.dec @@ -0,0 +1,645 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> X mu nu +# -----> non-SL +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Last change 15 Nov 1999 +############################################################################### + +## use the world average value reported at the Lepton-Photon 99 conference: +## ( http://www.cern.ch/LEPBOSC/combined_results/stanford_1999/ ) +## +## delta(m) = 0.473 +- 0.016 /ps + + +## define aliases with restricted decay modes (which are specified below) + +Alias B0-SL-e B0 +Alias B0-SL-mu B0 +Alias B0-no-SL B0 + +Alias anti-B0-SL-e anti-B0 +Alias anti-B0-SL-mu anti-B0 +Alias anti-B0-no-SL anti-B0 + +## define charge conjugate relationships between aliases + +ChargeConj B0-SL-e anti-B0-SL-e +ChargeConj B0-SL-mu anti-B0-SL-mu +ChargeConj B0-no-SL anti-B0-no-SL + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.411789 B0-SL-mu anti-B0-no-SL VSS_MIX dm; + 0.411789 B0-no-SL anti-B0-SL-mu VSS_MIX dm; + 0.088211 anti-B0-SL-mu anti-B0-no-SL VSS_MIX dm; + 0.088211 B0-SL-mu B0-no-SL VSS_MIX dm; +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-e + +# b -> c e+ nu (10.4%) + + 0.0490 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- e+ nu_e PHOTOS ISGW2; + 0.0040 D_1- e+ nu_e PHOTOS ISGW2; + 0.0040 D_0*- e+ nu_e PHOTOS ISGW2; + 0.0070 D'_1- e+ nu_e PHOTOS ISGW2; + 0.0070 D_2*- e+ nu_e PHOTOS ISGW2; + 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0806%) + + 0.000064 pi- e+ nu_e PHOTOS ISGW2; + 0.000250 rho- e+ nu_e PHOTOS ISGW2; + 0.000274 a_1- e+ nu_e PHOTOS ISGW2; + 0.000170 b_1- e+ nu_e PHOTOS ISGW2; + 0.000024 a_0- e+ nu_e PHOTOS ISGW2; + 0.000024 a_2- e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-mu + +# b -> c mu+ nu (10.4%) + + 0.0490 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + 0.000064 pi- mu+ nu_mu PHOTOS ISGW2; + 0.000250 rho- mu+ nu_mu PHOTOS ISGW2; + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-e + +# b -> c e- nu (10.4%) + + 0.0490 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + 0.000064 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-mu + +# b -> c mu- nu (10.4%) + + 0.0490 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0806%) + + 0.000064 pi+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000250 rho+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000274 a_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000170 b_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_0+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_2+ mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-no-SL + +# JETSET misc fragmentation (42.664%) + + 0.32474 u anti-d anti-c d JETSET 48; + 0.04600 u anti-d anti-c d JETSET 25; + 0.02100 u anti-s anti-c d JETSET 23; + 0.01800 u anti-c anti-d d JETSET 48; + 0.00090 u anti-c anti-s d JETSET 48; + 0.00000 c anti-s anti-c d JETSET 13; + 0.00600 c anti-d anti-c d JETSET 13; + 0.00600 u anti-d anti-u d JETSET 48; + 0.00400 c anti-s anti-u d JETSET 48; + +# b -> c (sc=) --> D Ds X (10.14%) + + 0.0096 D- D_s+ PHSP; + 0.0102 D*- D_s+ SVS; + 0.0120 D_1- D_s+ SVS; + 0.0094 D_s*+ D- SVS; + 0.0174 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0030 D_s+ D- pi0 PHSP; + 0.0060 D_s+ anti-D0 pi- PHSP; + 0.0030 D_s*+ D- pi0 PHSP; + 0.0060 D_s*+ anti-D0 pi- PHSP; + 0.0050 D_s+ D- pi- pi+ PHSP; + 0.0037 D_s+ D- pi0 pi0 PHSP; + 0.0037 D_s+ anti-D0 pi- pi0 PHSP; + 0.0050 D_s*+ D- pi- pi+ PHSP; + 0.0037 D_s*+ D- pi0 pi0 PHSP; + 0.0037 D_s*+ anti-D0 pi- pi0 PHSP; + +# b -> c (sc=) --> D D= K X (8.0%) + + 0.0025 D- D0 K+ PHSP; + 0.0025 D- D+ K0 PHSP; + 0.0025 D- D0 K*+ PHSP; + 0.0025 D- D+ K*0 PHSP; + + 0.0050 D*- D0 K+ PHSP; + 0.0050 D*- D+ K0 PHSP; + 0.0050 D- D*0 K+ PHSP; + 0.0050 D- D*+ K0 PHSP; + + 0.0025 D*- D0 K*+ PHSP; + 0.0025 D*- D+ K*0 PHSP; + 0.0025 D- D*0 K*+ PHSP; + 0.0025 D- D*+ K*0 PHSP; + + 0.0150 D*- D*0 K+ PHSP; + 0.0150 D*- D*+ K0 PHSP; + 0.0050 D*- D*0 K*+ PHSP; + 0.0050 D*- D*+ K*0 PHSP; + +# B -> D(*) X Exclusive modes (6.67%) + + 0.0027 D*- pi+ SVS; + 0.0030 D- pi+ PHSP; + 0.0082 rho+ D- SVS; + 0.0070 rho+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 D- pi+ pi0 PHSP; + 0.0070 D*- pi+ pi0 PHSP; + 0.0010 anti-D0 pi- pi+ PHSP; + 0.0010 anti-D*0 pi- pi+ PHSP; + 0.0005 anti-D*0 pi0 pi0 PHSP; + + 0.0060 a_1+ D- SVS; + 0.0011 D- rho0 pi+ PHSP; + 0.0011 D- rho+ pi0 PHSP; + 0.0010 D- pi- pi+ pi+ PHSP; + 0.0010 D- pi0 pi+ pi0 PHSP; + 0.0010 anti-D0 pi- pi+ pi0 PHSP; + 0.0001 anti-D0 pi0 pi0 pi0 PHSP; + + 0.0122 a_1+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 D*- rho0 pi+ PHSP; + 0.0010 D*- rho+ pi0 PHSP; + 0.0077 D*- pi- pi+ pi+ PHSP; + 0.0010 D*- pi0 pi+ pi0 PHSP; + 0.0010 anti-D*0 pi- pi+ pi0 PHSP; + 0.0001 anti-D*0 pi0 pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + + 0.01000 anti-cd_0 ud_0 JETSET 23; + 0.03000 anti-cd_1 ud_1 JETSET 23; + +# b -> c tau+ nu (2.96%) + + 0.0160 D*- tau+ nu_tau ISGW2; + 0.0070 D- tau+ nu_tau ISGW2; + 0.0013 D_1- tau+ nu_tau ISGW2; + 0.0013 D_0*- tau+ nu_tau ISGW2; + 0.0020 D'_1- tau+ nu_tau ISGW2; + 0.0020 D_2*- tau+ nu_tau ISGW2; + +# Xi_c X (2.4%) + + 0.00600 anti-cs_0 ud_0 JETSET 23; + 0.01800 anti-cs_1 ud_1 JETSET 23; + +# B -> cc= s (1.94%) + + 0.0004 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0004 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00025 J/psi K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.00025 J/psi K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 J/psi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 J/psi K+ pi- PHSP; + 0.0005 J/psi K0 pi0 PHSP; + 0.0014 J/psi K0 pi- pi+ PHSP; + 0.0007 J/psi K0 pi0 pi0 PHSP; + 0.0007 J/psi K+ pi- pi0 PHSP; + 0.0005 J/psi anti-K'_10 PHSP; + 0.0005 J/psi anti-K_2*0 PHSP; + + 0.0003 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0003 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00025 psi(2S) K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.00025 psi(2S) K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 psi(2S) K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 psi(2S) K+ pi- PHSP; + 0.0002 psi(2S) K0 pi0 PHSP; + 0.0004 psi(2S) K0 pi- pi+ PHSP; + 0.0002 psi(2S) K0 pi0 pi0 PHSP; + 0.0002 psi(2S) K+ pi- pi0 PHSP; + + 0.0001 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0001 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00005 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00005 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0002 K*0T eta_c SVS; + 0.0002 eta_c K+ pi- PHSP; + 0.0001 eta_c K0 pi0 PHSP; + 0.0002 eta_c K0 pi- pi+ PHSP; + 0.0001 eta_c K0 pi0 pi0 PHSP; + 0.0001 eta_c K+ pi- pi0 PHSP; + + 0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0002 K*0T chi_c0 SVS; + 0.0002 chi_c0 K+ pi- PHSP; + 0.0001 chi_c0 K0 pi0 PHSP; + 0.0002 chi_c0 K0 pi- pi+ PHSP; + 0.0001 chi_c0 K0 pi0 pi0 PHSP; + 0.0001 chi_c0 K+ pi- pi0 PHSP; + + 0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0002 K*S chi_c1 SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0002 K*L chi_c1 SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0008 chi_c1 K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 chi_c1 K+ pi- PHSP; + 0.0002 chi_c1 K0 pi0 PHSP; + 0.0004 chi_c1 K0 pi- pi+ PHSP; + 0.0002 chi_c1 K0 pi0 pi0 PHSP; + 0.0002 chi_c1 K+ pi- pi0 PHSP; + + 0.0002 chi_c2 K_S0 PHSP; + 0.0002 chi_c2 K_L0 PHSP; + 0.00015 K*S chi_c2 PHSP; + 0.00015 K*L chi_c2 PHSP; + 0.0006 chi_c2 K*0T PHSP; + 0.0004 chi_c2 K+ pi- PHSP; + 0.0002 chi_c2 K0 pi0 PHSP; + 0.0004 chi_c2 K0 pi- pi+ PHSP; + 0.0002 chi_c2 K0 pi0 pi0 PHSP; + 0.0002 chi_c2 K+ pi- pi0 PHSP; + +# b-> c (dc=) (0.232%) + + 0.00045 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00081 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00081 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00025 D*+ D*- SVV_CP beta dm -1 0.62 0.0 1.05 0.0 0.25 0.0; + +# b -> u tau+ nu (0.0218%) + + 0.000021 pi- tau+ nu_tau ISGW2; + 0.000083 rho- tau+ nu_tau ISGW2; + 0.000090 a_1- tau+ nu_tau ISGW2; + 0.000008 b_1- tau+ nu_tau ISGW2; + 0.000008 a_0- tau+ nu_tau ISGW2; + 0.000008 a_2- tau+ nu_tau ISGW2; + +# B0 -> CP eigenstates (some exclusive b -> u) (0.011%) + + 0.00001 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.00001 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000056 pi- pi+ pi0 BTO3PI_CP dm alpha; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-no-SL + +# JETSET misc fragmentation (42.664%) + +0.32474 anti-u d c anti-d JETSET 48; +0.04600 anti-u d c anti-d JETSET 25; +0.02100 anti-u s c anti-d JETSET 23; +0.01800 anti-u c d anti-d JETSET 48; +0.00090 anti-u c s anti-d JETSET 48; +0.00000 anti-c s c anti-d JETSET 13; +0.00600 anti-c d c anti-d JETSET 13; +0.00600 anti-u d u anti-d JETSET 48; +0.00400 anti-c s u anti-d JETSET 48; + +# b -> c (sc=) --> D Ds X (10.14%) + +0.0096 D+ D_s- PHSP; +0.0102 D*+ D_s- SVS; +0.0120 D_1+ D_s- SVS; +0.0094 D_s*- D+ SVS; +0.0174 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0030 D_s- D+ pi0 PHSP; +0.0060 D_s- D0 pi+ PHSP; +0.0030 D_s*- D+ pi0 PHSP; +0.0060 D_s*- D0 pi+ PHSP; +0.0050 D_s- D+ pi+ pi- PHSP; +0.0037 D_s- D+ pi0 pi0 PHSP; +0.0037 D_s- D0 pi+ pi0 PHSP; +0.0050 D_s*- D+ pi+ pi- PHSP; +0.0037 D_s*- D+ pi0 pi0 PHSP; +0.0037 D_s*- D0 pi+ pi0 PHSP; + +# b -> c (sc=) --> D D= K X (8.0%) + +0.0025 D+ anti-D0 K- PHSP; +0.0025 D+ D- anti-K0 PHSP; +0.0025 D+ anti-D0 K*- PHSP; +0.0025 D+ D- anti-K*0 PHSP; +# +0.0050 D*+ anti-D0 K- PHSP; +0.0050 D*+ D- anti-K0 PHSP; +0.0050 D+ anti-D*0 K- PHSP; +0.0050 D+ D*- anti-K0 PHSP; +# +0.0025 D*+ anti-D0 K*- PHSP; +0.0025 D*+ D- anti-K*0 PHSP; +0.0025 D+ anti-D*0 K*- PHSP; +0.0025 D+ D*- anti-K*0 PHSP; +# +0.0150 D*+ anti-D*0 K- PHSP; +0.0150 D*+ D*- anti-K0 PHSP; +0.0050 D*+ anti-D*0 K*- PHSP; +0.0050 D*+ D*- anti-K*0 PHSP; + +# B -> D(*) X Exclusive modes (6.67%) + +0.0027 D*+ pi- SVS; +0.0030 D+ pi- PHSP; +0.0082 rho- D+ SVS; +0.0070 rho- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D+ pi- pi0 PHSP; +0.0070 D*+ pi- pi0 PHSP; +0.0010 D0 pi+ pi- PHSP; +0.0010 D*0 pi+ pi- PHSP; +0.0005 D*0 pi0 pi0 PHSP; +# +0.0060 a_1- D+ SVS; +0.0011 D+ rho0 pi- PHSP; +0.0011 D+ rho- pi0 PHSP; +0.0010 D+ pi+ pi- pi- PHSP; +0.0010 D+ pi0 pi- pi0 PHSP; +0.0010 D0 pi+ pi- pi0 PHSP; +0.0001 D0 pi0 pi0 pi0 PHSP; +# +0.0122 a_1- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D*+ rho0 pi- PHSP; +0.0010 D*+ rho- pi0 PHSP; +0.0077 D*+ pi+ pi- pi- PHSP; +0.0010 D*+ pi0 pi- pi0 PHSP; +0.0010 D*0 pi+ pi- pi0 PHSP; +0.0001 D*0 pi0 pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.01000 cd_0 anti-ud_0 JETSET 23; +0.03000 cd_1 anti-ud_1 JETSET 23; + +# b -> c tau- nu (2.96%) + +0.0160 D*+ tau- anti-nu_tau ISGW2; +0.0070 D+ tau- anti-nu_tau ISGW2; +0.0013 D_1+ tau- anti-nu_tau ISGW2; +0.0013 D_0*+ tau- anti-nu_tau ISGW2; +0.0020 D'_1+ tau- anti-nu_tau ISGW2; +0.0020 D_2*+ tau- anti-nu_tau ISGW2; + +# Xi_c X (2.4%) + +0.00600 cs_0 anti-ud_0 JETSET 23; +0.01800 cs_1 anti-ud_1 JETSET 23; + +# B -> cc= s (1.94%) + +0.0004 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0004 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00025 J/psi K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.00025 J/psi K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi K- pi+ PHSP; +0.0005 J/psi anti-K0 pi0 PHSP; +0.0014 J/psi anti-K0 pi+ pi- PHSP; +0.0007 J/psi anti-K0 pi0 pi0 PHSP; +0.0007 J/psi K- pi+ pi0 PHSP; +0.0005 J/psi K'_10 PHSP; +0.0005 J/psi K_2*0 PHSP; +# +0.0003 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0003 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00025 psi(2S) K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.00025 psi(2S) K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 psi(2S) anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) K- pi+ PHSP; +0.0002 psi(2S) anti-K0 pi0 PHSP; +0.0004 psi(2S) anti-K0 pi+ pi- PHSP; +0.0002 psi(2S) anti-K0 pi0 pi0 PHSP; +0.0002 psi(2S) K- pi+ pi0 PHSP; +# +0.0001 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0001 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0002 anti-K*0T eta_c SVS; +0.0002 eta_c K- pi+ PHSP; +0.0001 eta_c anti-K0 pi0 PHSP; +0.0002 eta_c anti-K0 pi+ pi- PHSP; +0.0001 eta_c anti-K0 pi0 pi0 PHSP; +0.0001 eta_c K- pi+ pi0 PHSP; +# +0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 anti-K*0T chi_c0 SVS; +0.0002 chi_c0 K- pi+ PHSP; +0.0001 chi_c0 anti-K0 pi0 PHSP; +0.0002 chi_c0 anti-K0 pi+ pi- PHSP; +0.0001 chi_c0 anti-K0 pi0 pi0 PHSP; +0.0001 chi_c0 K- pi+ pi0 PHSP; +# +0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 K*S chi_c1 SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0002 K*L chi_c1 SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0008 chi_c1 anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 K- pi+ PHSP; +0.0002 chi_c1 anti-K0 pi0 PHSP; +0.0004 chi_c1 anti-K0 pi+ pi- PHSP; +0.0002 chi_c1 anti-K0 pi0 pi0 PHSP; +0.0002 chi_c1 K- pi+ pi0 PHSP; +# +0.0002 chi_c2 K_S0 PHSP; +0.0002 chi_c2 K_L0 PHSP; +0.00015 K*S chi_c2 PHSP; +0.00015 K*L chi_c2 PHSP; +0.0006 chi_c2 anti-K*0T PHSP; +0.0004 chi_c2 K- pi+ PHSP; +0.0002 chi_c2 anti-K0 pi0 PHSP; +0.0004 chi_c2 anti-K0 pi+ pi- PHSP; +0.0002 chi_c2 anti-K0 pi0 pi0 PHSP; +0.0002 chi_c2 K- pi+ pi0 PHSP; +# +# +# +0.0000 phi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*S SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*L SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0000 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + +# b-> c (dc=) (0.232%) + +0.00045 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00081 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00081 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00025 D*+ D*- SVV_CP beta dm -1 0.62 0.0 1.05 0.0 0.25 0.0; + +# b -> u tau- nu (0.0218%) + +0.000021 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; + +# B0 -> CP eigenstates (some exclusive b -> u) (0.011%) + +0.00001 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.00001 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000056 pi- pi+ pi0 BTO3PI_CP dm alpha; +#0.00000108 K- pi+ pi0 BTOKPIPI_CP dm alpha beta; + +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_Xsdgamma.dec b/BaBar_2014/B0B0bar_Xsdgamma.dec new file mode 100644 index 0000000..aff46d2 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xsdgamma.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.0000 Xsd gamma BTOXSGAMMA 2; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaAli.dec b/BaBar_2014/B0B0bar_XsdgammaAli.dec new file mode 100644 index 0000000..007c636 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaAli.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.0000 Xsd gamma BTOXSGAMMA 1; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 1; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp465.dec b/BaBar_2014/B0B0bar_XsdgammaExp465.dec new file mode 100644 index 0000000..ed06b14 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp465.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp470.dec b/BaBar_2014/B0B0bar_XsdgammaExp470.dec new file mode 100644 index 0000000..2bd6e02 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp470.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp475.dec b/BaBar_2014/B0B0bar_XsdgammaExp475.dec new file mode 100644 index 0000000..4e7042b --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp475.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480.dec b/BaBar_2014/B0B0bar_XsdgammaExp480.dec new file mode 100644 index 0000000..9d52b4c --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.0to1.2.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.0to1.2.dec new file mode 100644 index 0000000..e9f71a5 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.0to1.2.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.2to1.4.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.2to1.4.dec new file mode 100644 index 0000000..01bccea --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.2to1.4.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.4to1.6.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.4to1.6.dec new file mode 100644 index 0000000..d20c28c --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.4to1.6.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.6to1.8.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.6to1.8.dec new file mode 100644 index 0000000..e2d564b --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.6to1.8.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.8to2.0.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.8to2.0.dec new file mode 100644 index 0000000..6ccb885 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_1.8to2.0.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.0to2.2.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.0to2.2.dec new file mode 100644 index 0000000..fcfced9 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.0to2.2.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.2to2.4.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.2to2.4.dec new file mode 100644 index 0000000..7a977fd --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.2to2.4.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.4to2.6.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.4to2.6.dec new file mode 100644 index 0000000..8976c62 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.4to2.6.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.6to2.8.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.6to2.8.dec new file mode 100644 index 0000000..f558d13 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.6to2.8.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.8to3.0.dec b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.8to3.0.dec new file mode 100644 index 0000000..0d2c0c0 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp480MH_2.8to3.0.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp485.dec b/BaBar_2014/B0B0bar_XsdgammaExp485.dec new file mode 100644 index 0000000..bcedfef --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp485.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp490.dec b/BaBar_2014/B0B0bar_XsdgammaExp490.dec new file mode 100644 index 0000000..91fd14f --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp490.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaExp495.dec b/BaBar_2014/B0B0bar_XsdgammaExp495.dec new file mode 100644 index 0000000..5427b6f --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaExp495.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_6To2_7.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_6To2_7.dec new file mode 100644 index 0000000..7016d50 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_6To2_7.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_7To1_8.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_7To1_8.dec new file mode 100644 index 0000000..546a96f --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_7To1_8.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_8To1_9.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_8To1_9.dec new file mode 100644 index 0000000..95bfe08 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_8To1_9.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_9To2_0.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_9To2_0.dec new file mode 100644 index 0000000..0145e06 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma1_9To2_0.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_0To2_1.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_0To2_1.dec new file mode 100644 index 0000000..5f5d1ef --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_0To2_1.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_1To2_2.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_1To2_2.dec new file mode 100644 index 0000000..e0fe6ed --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_1To2_2.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_2To2_3.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_2To2_3.dec new file mode 100644 index 0000000..fb9aa68 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_2To2_3.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_3To2_4.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_3To2_4.dec new file mode 100644 index 0000000..f66deb7 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_3To2_4.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_4To2_5.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_4To2_5.dec new file mode 100644 index 0000000..2937232 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_4To2_5.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_5To2_6.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_5To2_6.dec new file mode 100644 index 0000000..883d7c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_5To2_6.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_6To2_7.dec b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_6To2_7.dec new file mode 100644 index 0000000..85302c5 --- /dev/null +++ b/BaBar_2014/B0B0bar_XsdgammaFlatEGamma2_6To2_7.dec @@ -0,0 +1,59 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay + +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_Xsee.dec b/BaBar_2014/B0B0bar_Xsee.dec new file mode 100644 index 0000000..ee81d0f --- /dev/null +++ b/BaBar_2014/B0B0bar_Xsee.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> Xsd e+ e-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +############################################################ +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd e+ e- PHOTOS BTOXSLL; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd e+ e- PHOTOS BTOXSLL; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_Xsee_pf410.dec b/BaBar_2014/B0B0bar_Xsee_pf410.dec new file mode 100644 index 0000000..3876aa7 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xsee_pf410.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> Xsd e+ e-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_Xsmumu.dec b/BaBar_2014/B0B0bar_Xsmumu.dec new file mode 100644 index 0000000..62c4914 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xsmumu.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> Xsd mu+ mu-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +############################################################ +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd mu+ mu- PHOTOS BTOXSLL; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd mu+ mu- PHOTOS BTOXSLL; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_Xsmumu_pf410.dec b/BaBar_2014/B0B0bar_Xsmumu_pf410.dec new file mode 100644 index 0000000..be7985e --- /dev/null +++ b/BaBar_2014/B0B0bar_Xsmumu_pf410.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> Xsd mu+ mu-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_Xstautau.dec b/BaBar_2014/B0B0bar_Xstautau.dec new file mode 100644 index 0000000..4242cb1 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xstautau.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> Xsd tau+ tau-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +############################################################ +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd tau+ tau- PHOTOS BTOXSLL; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd tau+ tau- PHOTOS BTOXSLL; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_Xstautau_pf410.dec b/BaBar_2014/B0B0bar_Xstautau_pf410.dec new file mode 100644 index 0000000..e2f0dc9 --- /dev/null +++ b/BaBar_2014/B0B0bar_Xstautau_pf410.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> Xsd tau+ tau-, anti-B0 -> X + c.c. # +# # +# Xsd is non-resonant (s-bar d) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +############################################################ +# +# Xsd meson (s-bar d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 + +Decay Upsilon(4S) + 1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 + 1.0000 Xsd tau+ tau- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay Myanti-B0 + 1.0000 anti-Xsd tau+ tau- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_XtoJpsiGammaKs.dec b/BaBar_2014/B0B0bar_XtoJpsiGammaKs.dec new file mode 100644 index 0000000..a6abda2 --- /dev/null +++ b/BaBar_2014/B0B0bar_XtoJpsiGammaKs.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: anti-B0 -> X3872 K0s, B0 -> X # +# |-> Jpsi gamma |->pi+pi- # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +# +Particle dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyX MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyX +1.0 gamma MyJpsi PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_XtoJpsiGammaKstar_K.dec b/BaBar_2014/B0B0bar_XtoJpsiGammaKstar_K.dec new file mode 100644 index 0000000..51508c6 --- /dev/null +++ b/BaBar_2014/B0B0bar_XtoJpsiGammaKstar_K.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: anti-B0 -> X3872 K*0, B0 -> X # +# |-> Jpsi gamma K+ pi- # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +# +Particle dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyX MyKstar0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyX MyantiKstar0 PHSP; +Enddecay +# +Decay MyX +1.0 gamma MyJpsi PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_XtoJpsiGammaKstar_KS.dec b/BaBar_2014/B0B0bar_XtoJpsiGammaKstar_KS.dec new file mode 100644 index 0000000..6daeaef --- /dev/null +++ b/BaBar_2014/B0B0bar_XtoJpsiGammaKstar_KS.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: anti-B0 -> X3872 K*0, B0 -> X # +# |-> Jpsi gamma Ks |->pi+pi- pi0 # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +# +Particle dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 +1.0000 MyX MyKstar0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyX MyantiKstar0 PHSP; +Enddecay +# +Decay MyX +1.0 gamma MyJpsi PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_XtoJpsiPi0Ks.dec b/BaBar_2014/B0B0bar_XtoJpsiPi0Ks.dec new file mode 100644 index 0000000..f4c42fa --- /dev/null +++ b/BaBar_2014/B0B0bar_XtoJpsiPi0Ks.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> X3872 Ks, B0bar -> X # +# | | # +# J/psi pi0 ->pi+ pi- # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +Particle dummy00_1 3.872 0.0 +# +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Alias MyX dummy00_1 +# +Decay Upsilon(4S) + 1.0000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 + 1.000 MyX MyK_S0 PHSP; + +Enddecay +# +Decay MyAnti-B0 + 1.000 MyX MyK_S0 PHSP; +Enddecay +# +# +Decay MyX + 1. MyJ/psi pi0 PHSP; +Enddecay +# +# +Decay MyJ/psi + 0.5000 e+ e- PHOTOS VLL; + 0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a00ks_etato3pi.dec b/BaBar_2014/B0B0bar_a00ks_etato3pi.dec new file mode 100644 index 0000000..7ae702d --- /dev/null +++ b/BaBar_2014/B0B0bar_a00ks_etato3pi.dec @@ -0,0 +1,42 @@ +######################################################## +# # +# Decay: anti-B0 -> a_00 Ks + cc # +# | # +# |-> eta(3pi) pi0 # +# # +# Author: Paul C. Bloom # +# Date: 30 December 2002 # +# # +######################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_00 a_00 +Alias Myeta eta +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_00 MyKs SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_00 MyKs SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay MyKs +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a00ks_etato3pi_sp4.dec b/BaBar_2014/B0B0bar_a00ks_etato3pi_sp4.dec new file mode 100644 index 0000000..1970a05 --- /dev/null +++ b/BaBar_2014/B0B0bar_a00ks_etato3pi_sp4.dec @@ -0,0 +1,42 @@ +######################################################## +# # +# Decay: anti-B0 -> a_00 Ks + cc # +# | # +# |-> eta(3pi) pi0 # +# # +# Author: Paul C. Bloom # +# Date: 30 December 2002 # +# To be used for last minute SP4 production # +######################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_00 a_00 +Alias Myeta eta +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_00 MyKs SSS_CP beta dm 1 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_00 MyKs SSS_CP beta dm 1 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay MyKs +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a00ks_etatogg.dec b/BaBar_2014/B0B0bar_a00ks_etatogg.dec new file mode 100644 index 0000000..8133eba --- /dev/null +++ b/BaBar_2014/B0B0bar_a00ks_etatogg.dec @@ -0,0 +1,45 @@ +######################################################## +# # +# Decay: anti-B0 -> a_00 Ks + cc # +# | # +# |-> eta(gg) pi0 # +# # +# Author: Paul C. Bloom # +# Date: 30 December 2002 # +# # +######################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_00 a_00 +Alias MyKs K_S0 +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_00 MyKs SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_00 MyKs SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay MyKs +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_a00ks_etatogg_sp4.dec b/BaBar_2014/B0B0bar_a00ks_etatogg_sp4.dec new file mode 100644 index 0000000..1aa6083 --- /dev/null +++ b/BaBar_2014/B0B0bar_a00ks_etatogg_sp4.dec @@ -0,0 +1,45 @@ +######################################################## +# # +# Decay: anti-B0 -> a_00 Ks + cc # +# | # +# |-> eta(gg) pi0 # +# # +# Author: Paul C. Bloom # +# Date: 30 December 2002 # +# To be used for last minute SP4 production # +######################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_00 a_00 +Alias MyKs K_S0 +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_00 MyKs SSS_CP beta dm 1 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_00 MyKs SSS_CP beta dm 1 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay MyKs +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_a00pi0.dec b/BaBar_2014/B0B0bar_a00pi0.dec new file mode 100644 index 0000000..1786053 --- /dev/null +++ b/BaBar_2014/B0B0bar_a00pi0.dec @@ -0,0 +1,38 @@ +######################################################## +# # +# Decay: anti-B0 -> a_00 pi0 + cc # +# | # +# \->2pi0 # +# # +# Author: Lydia Roos # +# Date: 20 September 2000 # +# # +# Modified: Adrian Bevan (AB) for a00->2pi0 29March 01 # bevan@slac.stanford.edu +# AB correction 20 April 01 # +######################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_00 a_00 +# +Decay Upsilon(4S) +0.500 Myanti-B0 B0 VSS; +0.500 MyB0 anti-B0 VSS; +Enddecay +# +Decay MyB0 +1.0000 Mya_00 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_00 pi0 PHSP; +Enddecay +# +Decay Mya_00 +1.0000 eta pi0 PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_a00rho0.dec b/BaBar_2014/B0B0bar_a00rho0.dec new file mode 100644 index 0000000..b963a9c --- /dev/null +++ b/BaBar_2014/B0B0bar_a00rho0.dec @@ -0,0 +1,47 @@ +################################################### +# # +# Decay: anti-B0 -> a_00 Rho0 + cc # +# | # +# -->eta(gg) pi0 # +# # +# Author: Vasia Shelkov(vasia@slac.stanford.edu) # +# Date: 21 March 2001 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_00 a_00 +Alias Myrho0 rho0 +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myrho0 Mya_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Myrho0 Mya_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myrho0 +1.000 pi- pi+ VSS; +Enddecay +# +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# + +End + + + diff --git a/BaBar_2014/B0B0bar_a0mpip.dec b/BaBar_2014/B0B0bar_a0mpip.dec new file mode 100644 index 0000000..9c5d352 --- /dev/null +++ b/BaBar_2014/B0B0bar_a0mpip.dec @@ -0,0 +1,48 @@ +################################################### +# # +# Decay: anti-B0 -> a_0- pi+ + cc # +# | # +# -->eta(gg) pi- # +# # +# Author: Lydia Roos # +# Date: 20 September 2000 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +ChargeConj Mya_0+ Mya_0- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_0+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_0- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# + +End + + + diff --git a/BaBar_2014/B0B0bar_a0mpip_etato3pi.dec b/BaBar_2014/B0B0bar_a0mpip_etato3pi.dec new file mode 100644 index 0000000..f6ed4e6 --- /dev/null +++ b/BaBar_2014/B0B0bar_a0mpip_etato3pi.dec @@ -0,0 +1,48 @@ +################################################### +# # +# Decay: anti-B0 -> a_0- pi+ + cc # +# | # +# -->eta(pi+pi-pi0) pi- # +# # +# Author: Lydia Roos # +# Date: 9 January 2001 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +ChargeConj Mya_0+ Mya_0- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_0+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_0- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# + +End + + + diff --git a/BaBar_2014/B0B0bar_a0mrhop.dec b/BaBar_2014/B0B0bar_a0mrhop.dec new file mode 100644 index 0000000..e4fb24b --- /dev/null +++ b/BaBar_2014/B0B0bar_a0mrhop.dec @@ -0,0 +1,59 @@ +################################################### +# # +# Decay: anti-B0 -> a_0- rho+ # +# | # +# -->eta(gg) pi- # +# # +# Author: Vasia Shelkov(vasia@slac.stanford.edu) # +# Date: 29 March 2001 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0- a_0- +Alias Mya_0+ a_0+ +Alias Myrho- rho- +Alias Myrho+ rho+ +Alias Myeta eta +ChargeConj Mya_0+ Mya_0- +ChargeConj Myrho- Myrho+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myrho- Mya_0+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Myrho+ Mya_0- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myrho+ +1.000 pi0 pi+ VSS; +Enddecay +# +Decay Myrho- +1.000 pi0 pi- VSS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_a0pkm.dec b/BaBar_2014/B0B0bar_a0pkm.dec new file mode 100644 index 0000000..fb09330 --- /dev/null +++ b/BaBar_2014/B0B0bar_a0pkm.dec @@ -0,0 +1,47 @@ +################################################### +# # +# Decay: anti-B0 -> a_0+ K- + cc # +# | # +# -->eta(gg) pi+ # +# # +# Author: Lydia Roos # +# Date: 30 January 2001 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +ChargeConj Mya_0+ Mya_0- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_0- K+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_0+ K- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# + +End + + + diff --git a/BaBar_2014/B0B0bar_a0pkm_etato3pi.dec b/BaBar_2014/B0B0bar_a0pkm_etato3pi.dec new file mode 100644 index 0000000..da66275 --- /dev/null +++ b/BaBar_2014/B0B0bar_a0pkm_etato3pi.dec @@ -0,0 +1,46 @@ +################################################### +# # +# Decay: anti-B0 -> a_0+ K- + cc # +# | # +# -->eta(pi+pi-pi0) pi+ # +# # +# Author: Lydia Roos # +# Date: 30 January 2001 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_0- K+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_0+ K- PHSP; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# + +End + + + diff --git a/BaBar_2014/B0B0bar_a0ppim.dec b/BaBar_2014/B0B0bar_a0ppim.dec new file mode 100644 index 0000000..dc2e0e2 --- /dev/null +++ b/BaBar_2014/B0B0bar_a0ppim.dec @@ -0,0 +1,50 @@ +################################################### +# # +# Decay: anti-B0 -> a_0+ pi- + cc # +# | # +# -->eta(gg) pi+ # +# # +# Author: Lydia Roos # +# Date: 20 September 2000 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta + +ChargeConj Mya_0- Mya_0+ + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_0- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_0+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# + +End + + + diff --git a/BaBar_2014/B0B0bar_a0ppim_etato3pi.dec b/BaBar_2014/B0B0bar_a0ppim_etato3pi.dec new file mode 100644 index 0000000..6f6ce3a --- /dev/null +++ b/BaBar_2014/B0B0bar_a0ppim_etato3pi.dec @@ -0,0 +1,48 @@ +################################################### +# # +# Decay: anti-B0 -> a_0+ pi- + cc # +# | # +# -->eta(pi+pi-pi0) pi+ # +# # +# Author: Lydia Roos # +# Date: 9 January 2001 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta +ChargeConj Mya_0+ Mya_0- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Mya_0- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Mya_0+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# + +End + + + diff --git a/BaBar_2014/B0B0bar_a0prhom.dec b/BaBar_2014/B0B0bar_a0prhom.dec new file mode 100644 index 0000000..4aa8337 --- /dev/null +++ b/BaBar_2014/B0B0bar_a0prhom.dec @@ -0,0 +1,59 @@ +################################################### +# # +# Decay: anti-B0 -> a_0+ rho- # +# | # +# -->eta(gg) pi+ # +# # +# Author: Vasia Shelkov(vasia@slac.stanford.edu) # +# Date: 29 March 2001 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myrho- rho- +Alias Myrho+ rho+ +Alias Myeta eta +ChargeConj Mya_0+ Mya_0- +ChargeConj Myrho- Myrho+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myrho+ Mya_0- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 Myrho- Mya_0+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_a10K0s.dec b/BaBar_2014/B0B0bar_a10K0s.dec new file mode 100644 index 0000000..f94a48a --- /dev/null +++ b/BaBar_2014/B0B0bar_a10K0s.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B0 -> a10 K0s + c.c. # +# # +# # +# Author: Matt Graham mgraham@slac.stanford.edu # +# Created: 30 Jan 2004 # +# # +################################################### +# +# Decay table for B0 -> a10 K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 a_10 K_S0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 a_10 K_S0 SVS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a10K0s_rhompip.dec b/BaBar_2014/B0B0bar_a10K0s_rhompip.dec new file mode 100644 index 0000000..a70625c --- /dev/null +++ b/BaBar_2014/B0B0bar_a10K0s_rhompip.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> a10 K0s (a10 -> rho- pi+) + c.c. # +# # +# # +# Author: Daniel Walker dwalker@slac.stanford.edu # +# Created: 23 Mar 2004 # +# # +################################################### +# +# Decay table for B0 -> a10 K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_10 a_10 +Alias MyK_S0 K_S0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mya_10 MyK_S0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Mya_10 MyK_S0 SVS; +Enddecay +# +Decay Mya_10 +1.000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_a10K0s_rhoppim.dec b/BaBar_2014/B0B0bar_a10K0s_rhoppim.dec new file mode 100644 index 0000000..459d1d6 --- /dev/null +++ b/BaBar_2014/B0B0bar_a10K0s_rhoppim.dec @@ -0,0 +1,42 @@ +################################################### +# # +# B0 -> a10 K0s (a10 -> rho+ pi-) + c.c. # +# # +# # +# Author: Daniel Walker dwalker@slac.stanford.edu # +# Created: 23 Mar 2004 # +# # +################################################### +# +# Decay table for B0 -> a10 K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_10 a_10 +Alias MyK_S0 K_S0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mya_10 MyK_S0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Mya_10 MyK_S0 SVS; +Enddecay +# +Decay Mya_10 +1.000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a10pi0_rhompip.dec b/BaBar_2014/B0B0bar_a10pi0_rhompip.dec new file mode 100644 index 0000000..e334f4c --- /dev/null +++ b/BaBar_2014/B0B0bar_a10pi0_rhompip.dec @@ -0,0 +1,37 @@ +################################################### +# # +# B0 -> a10 pi0 (a10 -> rho- pi+) + c.c. # +# # +# # +# Author: Daniel Walker dwalker@slac.stanford.edu # +# Created: 23 Mar 2004 # +# # +################################################### +# +# Decay table for B0 -> a10 pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_10 a_10 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mya_10 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Mya_10 pi0 SVS; +Enddecay +# +Decay Mya_10 +1.000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a10pi0_rhoppim.dec b/BaBar_2014/B0B0bar_a10pi0_rhoppim.dec new file mode 100644 index 0000000..d631421 --- /dev/null +++ b/BaBar_2014/B0B0bar_a10pi0_rhoppim.dec @@ -0,0 +1,37 @@ +################################################### +# # +# B0 -> a10 pi0 (a10 -> rho+ pi-) + c.c. # +# # +# # +# Author: Daniel Walker dwalker@slac.stanford.edu # +# Created: 23 Mar 2004 # +# # +################################################### +# +# Decay table for B0 -> a10 pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mya_10 a_10 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mya_10 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Mya_10 pi0 SVS; +Enddecay +# +Decay Mya_10 +1.000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a10rho0_ln.dec b/BaBar_2014/B0B0bar_a10rho0_ln.dec new file mode 100644 index 0000000..87aeb24 --- /dev/null +++ b/BaBar_2014/B0B0bar_a10rho0_ln.dec @@ -0,0 +1,26 @@ +############################################################ +# # +# Decay: B0 -> a10 rho0 -> (rho+- pi-+)(pi+ pi-) ln # +# B0bar -> generic +cc # +# # +# Author: Gregory Schott # +# e-mail: schott@slac.stanford.edu # +# Created: 26/11/2003 # +# # +############################################################ +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 a_10 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 a_10 rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_a10rho0_tr.dec b/BaBar_2014/B0B0bar_a10rho0_tr.dec new file mode 100644 index 0000000..b165e93 --- /dev/null +++ b/BaBar_2014/B0B0bar_a10rho0_tr.dec @@ -0,0 +1,26 @@ +############################################################ +# # +# Decay: B0 -> a10 rho0 -> (rho+- pi-+)(pi+ pi-) tr # +# B0bar -> generic +cc # +# # +# Author: Gregory Schott # +# e-mail: schott@slac.stanford.edu # +# Created: 26/11/2003 # +# # +############################################################ +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 a_10 rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 a_10 rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_a1_DchmKpipimKspi.dec b/BaBar_2014/B0B0bar_a1_DchmKpipimKspi.dec new file mode 100644 index 0000000..5c84bd5 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1_DchmKpipimKspi.dec @@ -0,0 +1,55 @@ +## The Breco neutral B mesons. +## +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 anti-B0 MyB0 VSS_BMIX dm; +0.500 B0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Mya_1- MyD+ SVS; +Enddecay +# +# +Decay MyD- +0.5 K+ pi- pi- D_DALITZ; +0.5 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.5 K- pi+ pi+ D_DALITZ; +0.5 MyKs pi+ PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +End + + + + diff --git a/BaBar_2014/B0B0bar_a1_DstarmpiD0barmK3pi.dec b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmK3pi.dec new file mode 100644 index 0000000..7302655 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmK3pi.dec @@ -0,0 +1,59 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- a1(1260)+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- pi+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKpi.dec b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKpi.dec new file mode 100644 index 0000000..f5eed65 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKpi.dec @@ -0,0 +1,56 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- a1(1260)+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKpipi0.dec b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKpipi0.dec new file mode 100644 index 0000000..5c026eb --- /dev/null +++ b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKpipi0.dec @@ -0,0 +1,57 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- a1(1260)+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- pi0 # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi0 D_DALITZ; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKspipi.dec b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKspipi.dec new file mode 100644 index 0000000..3165f97 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1_DstarmpiD0barmKspipi.dec @@ -0,0 +1,76 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- a1(1260)+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_a1_DstarmpiD0mK3pimKs2pi.dec b/BaBar_2014/B0B0bar_a1_DstarmpiD0mK3pimKs2pi.dec new file mode 100644 index 0000000..6fe3697 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1_DstarmpiD0mK3pimKs2pi.dec @@ -0,0 +1,117 @@ +## The Breco cocktail for neutral B mesons. +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 anti-B0 MyB0 VSS_BMIX dm; +0.500 B0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +1.000 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay Myanti-B0 +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +1.000 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.446 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277*2 total) +0.2540 Mya_1+ K- SVS; +0.0246 MyK_1- pi+ SVS; +0.0750 Myanti-K*0 pi+ pi- PHSP; +0.0388 K- pi+ rho0 PHSP; +0.0924 K- pi+ pi+ pi- PHSP; +0.0692 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.446 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.2540 Mya_1- K+ SVS; +0.0246 MyK_1+ pi- SVS; +0.0750 MyK*0 pi- pi+ PHSP; +0.0388 K+ pi- rho0 PHSP; +0.0924 K+ pi- pi- pi+ PHSP; +0.0692 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_a1_DstarmpiD0mKpimKpipi0.dec b/BaBar_2014/B0B0bar_a1_DstarmpiD0mKpimKpipi0.dec new file mode 100644 index 0000000..fb2a673 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1_DstarmpiD0mKpimKpipi0.dec @@ -0,0 +1,66 @@ +## The Breco neutral B mesons. + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +# + +Decay Upsilon(4S) +0.500 anti-B0 MyB0 VSS_BMIX dm; +0.500 B0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +1.000 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay Myanti-B0 +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +1.000 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.5 K- pi+ PHSP; +0.5 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.5 K+ pi- PHSP; +0.5 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +End + + + + + + diff --git a/BaBar_2014/B0B0bar_a1mKp.dec b/BaBar_2014/B0B0bar_a1mKp.dec new file mode 100644 index 0000000..b616c7b --- /dev/null +++ b/BaBar_2014/B0B0bar_a1mKp.dec @@ -0,0 +1,45 @@ +################################################### +# # +# Decay: anti-B0 -> a1- K+ + cc # +# # +# Author: Vincenzo Lombardo, Gabriele Dell'Aglio # +# INFN - Milano # +# Date: 4 March 2004 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 mya_1- K+ SVS; +Enddecay +# +Decay mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0 +1.0000 mya_1+ K- SVS; +Enddecay +# +Decay mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_a1mKp_rhompi0.dec b/BaBar_2014/B0B0bar_a1mKp_rhompi0.dec new file mode 100644 index 0000000..1af02ec --- /dev/null +++ b/BaBar_2014/B0B0bar_a1mKp_rhompi0.dec @@ -0,0 +1,44 @@ +################################################### +# # +# Decay: anti-B0 -> a1- K+ + cc # +# a1- to rho- pi0 # +# Author: Vincenzo Lombardo, Gabriele Dell'Aglio # +# INFN - Milano # +# Date: 4 March 2004 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 mya_1- K+ SVS; +Enddecay +# +Decay mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0 +1.0000 mya_1+ K- SVS; +Enddecay +# +Decay mya_1+ +1.0000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# + +End + + + + + + diff --git a/BaBar_2014/B0B0bar_a1mPip_RhoPi.dec b/BaBar_2014/B0B0bar_a1mPip_RhoPi.dec new file mode 100644 index 0000000..5829b3d --- /dev/null +++ b/BaBar_2014/B0B0bar_a1mPip_RhoPi.dec @@ -0,0 +1,30 @@ +############################################################ +# # +# Decay: B0 -> a_1- pi+ # +# B0bar -> generic +cc # +# a_1- -> rho- pi0 or rho0 pi- # +# # +# Author: Sandrine Emery # +# e-mail: emery@slac.stanford.edu # +# Created: 23/07/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 a_1- pi+ SVS; +Enddecay +# +Decay MyB0bar +1.000 a_1+ pi- SVS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a1mpip.dec b/BaBar_2014/B0B0bar_a1mpip.dec new file mode 100644 index 0000000..b38cb90 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1mpip.dec @@ -0,0 +1,44 @@ +################################################### +# # +# Decay: anti-B0 -> a1- pi+ + cc # +# # +# Author: Lydia Roos # +# Date: 20 September 2000 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +Alias Myrho0 rho0 +ChargeConj mya_1+ mya_1- + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 mya_1- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0 +1.0000 mya_1+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_a1ppim.dec b/BaBar_2014/B0B0bar_a1ppim.dec new file mode 100644 index 0000000..b87d8e4 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1ppim.dec @@ -0,0 +1,40 @@ +################################################### +# # +# Decay: anti-B0 -> a1+ pi-, B0 -> X # +# # +# + cc # +# # +# Author: Gian Gopal # +# Date: 19/March/99 # +# Modified; G.London 22/March/99 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 mya_1+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0 +1.0000 mya_1- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End d diff --git a/BaBar_2014/B0B0bar_a1ppim_rho0pip_NonCPEigen.dec b/BaBar_2014/B0B0bar_a1ppim_rho0pip_NonCPEigen.dec new file mode 100644 index 0000000..f4521b9 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1ppim_rho0pip_NonCPEigen.dec @@ -0,0 +1,68 @@ +################################################### +# # +# Decay: B0 -> a1+ pi- + cc # +# a1+ -> rho0 pi+ # +# # +# Author: Fernando Palombo # +# Date: 20/03/04 # +################################################### +# +# +Alias mya1+ a_1+ +Alias mya1- a_1- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho0 rho0 +ChargeConj mya1+ mya1- + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + + +Decay Upsilon(4S) +1.000 MyB0 B0 VSS; +Enddecay + + +Decay MyB0 +1.000 mya1- pi+ SVS_NONCPEIGEN alpha dm 0.5 + 1.0 0.0 1.0 0.0 + 1.0 0.0 1.0 0.0; +Enddecay + +Decay mya1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay mya1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay + +# +End + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_a1ppim_rhoppi0_NonCPEigen.dec b/BaBar_2014/B0B0bar_a1ppim_rhoppi0_NonCPEigen.dec new file mode 100644 index 0000000..53193cc --- /dev/null +++ b/BaBar_2014/B0B0bar_a1ppim_rhoppi0_NonCPEigen.dec @@ -0,0 +1,76 @@ +################################################### +# # +# Decay: B0 -> a1+ pi- + cc # +# a1+ -> rho+ pi0 # +# # +# Author: F. Palombo # +# Date: 20/03/04 # +################################################### + + +Alias mya1+ a_1+ +Alias mya1- a_1- +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho+ rho+ +Alias Myrho- rho- +ChargeConj mya1+ mya1- + + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + + +Decay Upsilon(4S) +1.000 MyB0 B0 VSS; +Enddecay + + +Decay MyB0 +1.000 mya1- pi+ SVS_NONCPEIGEN alpha dm 0.5 + 1.0 0.0 1.0 0.0 + 1.0 0.0 1.0 0.0; +Enddecay + +Decay mya1- +1.0000 Myrho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay mya1+ +1.0000 Myrho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay + + +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay + + + +# +End + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_a1prhom_rho0piprhom_ln.dec b/BaBar_2014/B0B0bar_a1prhom_rho0piprhom_ln.dec new file mode 100644 index 0000000..73a0242 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1prhom_rho0piprhom_ln.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B0 -> a1+ rho- -> (rho0 pi+)(rho-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/06/2003 # +# # +############################################################ +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 mya_1+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 mya_1- rho+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a1prhom_rho0piprhom_tr.dec b/BaBar_2014/B0B0bar_a1prhom_rho0piprhom_tr.dec new file mode 100644 index 0000000..a9ad01c --- /dev/null +++ b/BaBar_2014/B0B0bar_a1prhom_rho0piprhom_tr.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B0 -> a1+ rho- -> (rho0 pi+)(rho-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/06/2003 # +# # +############################################################ +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 mya_1+ rho- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 mya_1- rho+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_ln.dec b/BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_ln.dec new file mode 100644 index 0000000..922a86b --- /dev/null +++ b/BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_ln.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B0 -> a1+ rho- -> (rho+ pi0)(rho-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/06/2003 # +# # +############################################################ +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 mya_1+ rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 mya_1- rho+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_tr.dec b/BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_tr.dec new file mode 100644 index 0000000..6cdb510 --- /dev/null +++ b/BaBar_2014/B0B0bar_a1prhom_rhoppi0rhom_tr.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B0 -> a1+ rho- -> (rho+ pi0)(rho-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/06/2003 # +# # +############################################################ +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 mya_1+ rho- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 mya_1- rho+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_a2mpip.dec b/BaBar_2014/B0B0bar_a2mpip.dec new file mode 100755 index 0000000..2b3f9ec --- /dev/null +++ b/BaBar_2014/B0B0bar_a2mpip.dec @@ -0,0 +1,44 @@ +################################################### +# # +# Decay: anti-B0 -> a2- pi+ + cc # +# # +# Author: Vincenzo Lombardo(Milano) # +# Date: 11 July 2004 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias mya_2+ a_2+ +Alias mya_2- a_2- +Alias Myrho0 rho0 +ChargeConj mya_2+ mya_2- + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 mya_2- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_2- +1.0000 Myrho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0 +1.0000 mya_2+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_2+ +1.0000 Myrho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_emu.dec b/BaBar_2014/B0B0bar_emu.dec new file mode 100644 index 0000000..1108d7a --- /dev/null +++ b/BaBar_2014/B0B0bar_emu.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: anti-B0 -> e+ mu-, B0 -> X # +# # +# + cc # +# # +# Author: J. Cochran # +# Date: 19/Apr/01 # +# Initial version modified from B0Bar_e+e-.dec # +# # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +0.5000 e+ mu- SLL; +0.5000 e- mu+ SLL; +Enddecay +# +Decay Myanti-B0 +0.5000 e+ mu- SLL; +0.5000 e- mu+ SLL; +Enddecay +# + +End + diff --git a/BaBar_2014/B0B0bar_epem.dec b/BaBar_2014/B0B0bar_epem.dec new file mode 100644 index 0000000..9920dd3 --- /dev/null +++ b/BaBar_2014/B0B0bar_epem.dec @@ -0,0 +1,33 @@ +################################################### +# # +# Decay: anti-B0 -> e+ e-, B0 -> X # +# # +# + cc # +# # +# Author: G.Cavoto # +# Date: 23/Ago/00 # +# Initial version modified from B0Bar_p+p-.dec # +# Use phase space for now # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 e+ e- PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 e+ e- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_etaD0_k3pi.dec b/BaBar_2014/B0B0bar_etaD0_k3pi.dec new file mode 100644 index 0000000..7731771 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaD0_k3pi.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 eta # +# | | # +# | gamma gamma # +# | # +# |->K-pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 Myeta PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 Myeta PHSP; +Enddecay + + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_etaD0_kpi.dec b/BaBar_2014/B0B0bar_etaD0_kpi.dec new file mode 100644 index 0000000..e912a93 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaD0_kpi.dec @@ -0,0 +1,47 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 eta # +# | | # +# | gamma gamma # +# | # +# |->K-pi+ # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 Myeta PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 Myeta PHSP; +Enddecay + + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_etaD0_kpipi0.dec b/BaBar_2014/B0B0bar_etaD0_kpipi0.dec new file mode 100644 index 0000000..b5e3756 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaD0_kpipi0.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 eta # +# | | # +# | gamma gamma # +# | # +# |->K-pi+pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 Myeta PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 Myeta PHSP; +Enddecay + + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_etaDstar0_D0gamma_k3pi.dec b/BaBar_2014/B0B0bar_etaDstar0_D0gamma_k3pi.dec new file mode 100644 index 0000000..0e0b7fa --- /dev/null +++ b/BaBar_2014/B0B0bar_etaDstar0_D0gamma_k3pi.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta # +# | | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myeta SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_etaDstar0_D0gamma_kpi.dec b/BaBar_2014/B0B0bar_etaDstar0_D0gamma_kpi.dec new file mode 100644 index 0000000..6190a05 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaDstar0_D0gamma_kpi.dec @@ -0,0 +1,61 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta # +# | | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myeta SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_etaDstar0_D0gamma_kpipi0.dec b/BaBar_2014/B0B0bar_etaDstar0_D0gamma_kpipi0.dec new file mode 100644 index 0000000..df9596c --- /dev/null +++ b/BaBar_2014/B0B0bar_etaDstar0_D0gamma_kpipi0.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta # +# | | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+ pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myeta SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_etaDstar0_D0pi0_k3pi.dec b/BaBar_2014/B0B0bar_etaDstar0_D0pi0_k3pi.dec new file mode 100644 index 0000000..214404e --- /dev/null +++ b/BaBar_2014/B0B0bar_etaDstar0_D0pi0_k3pi.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta # +# | | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myeta SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpi.dec b/BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpi.dec new file mode 100644 index 0000000..fe1dd18 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpi.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta # +# | | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+ # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myeta SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; + +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; + +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpipi0.dec b/BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpipi0.dec new file mode 100644 index 0000000..21fedf5 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaDstar0_D0pi0_kpipi0.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta # +# | | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+ pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myeta SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_etac2K2piKS.dec b/BaBar_2014/B0B0bar_etac2K2piKS.dec new file mode 100644 index 0000000..89cfcd2 --- /dev/null +++ b/BaBar_2014/B0B0bar_etac2K2piKS.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> 2pi 2K # +# + cc # +# # +# Author: G. London # +# Created: 10/March/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.0210 pi+ pi- K+ K- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etac2phiKS.dec b/BaBar_2014/B0B0bar_etac2phiKS.dec new file mode 100644 index 0000000..fdb79cb --- /dev/null +++ b/BaBar_2014/B0B0bar_etac2phiKS.dec @@ -0,0 +1,49 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +####### OUT ###### |-> 4K ########### OUT ############### +# |-> phi phi # +# + cc # +# # +# Author: G. London # +# Created: 17/November/99 # +# Modified: 09/July/2001 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +#0.0370 K+ K- K+ K- PHSP; +0.0080 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etac2rhoKS.dec b/BaBar_2014/B0B0bar_etac2rhoKS.dec new file mode 100644 index 0000000..1ed1c7e --- /dev/null +++ b/BaBar_2014/B0B0bar_etac2rhoKS.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> rho0 rho0 # +# + cc # +# # +# Author: G. London # +# Created: 12/December/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +1.0000 MyRho0 MyRho0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyRho0 +1.0000 pi+ pi- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etac4KKS.dec b/BaBar_2014/B0B0bar_etac4KKS.dec new file mode 100644 index 0000000..7ac4d2b --- /dev/null +++ b/BaBar_2014/B0B0bar_etac4KKS.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> 4K # +# |-> phi phi # +# + cc # +# # +# Author: G. London # +# Created: 17/November/99 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.0370 K+ K- K+ K- PHSP; +0.0080 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etac4piKS.dec b/BaBar_2014/B0B0bar_etac4piKS.dec new file mode 100644 index 0000000..4ae54be --- /dev/null +++ b/BaBar_2014/B0B0bar_etac4piKS.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> 4pi # +# + cc # +# # +# Author: G. London # +# Created: 10/March/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.0120 pi+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etacFourKKS.dec b/BaBar_2014/B0B0bar_etacFourKKS.dec new file mode 100644 index 0000000..474f031 --- /dev/null +++ b/BaBar_2014/B0B0bar_etacFourKKS.dec @@ -0,0 +1,49 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> 4K # +######### OUT ##### |-> phi phi ######### OUT ############# +# + cc # +# # +# Author: G. London # +# Created: 17/November/99 # +# Modified: 09/July/2001 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.0370 K+ K- K+ K- PHSP; +#0.0080 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etacKKpi0KS.dec b/BaBar_2014/B0B0bar_etacKKpi0KS.dec new file mode 100644 index 0000000..bc41dac --- /dev/null +++ b/BaBar_2014/B0B0bar_etacKKpi0KS.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> K+ K- pi0 # +# + cc # +# # +# Author: G. London # +# Created: 19/May/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.0180 K+ K- pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etacKSKpiKS.dec b/BaBar_2014/B0B0bar_etacKSKpiKS.dec new file mode 100644 index 0000000..d0230fa --- /dev/null +++ b/BaBar_2014/B0B0bar_etacKSKpiKS.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> KS K pi # +# + cc # +# # +# Author: G. London # +# Created: 10/March/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.0240 MyK_S0 K+ pi- PHSP; +0.0240 MyK_S0 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etacKstarKpiKS.dec b/BaBar_2014/B0B0bar_etacKstarKpiKS.dec new file mode 100644 index 0000000..51b183b --- /dev/null +++ b/BaBar_2014/B0B0bar_etacKstarKpiKS.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> K*0 K- pi+ # +# + cc # +# # +# Author: G. London # +# Created: 17/November/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.500 MyK*0 K- pi+ PHSP; +0.500 MyK*0bar K+ pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etaceta2piKS.dec b/BaBar_2014/B0B0bar_etaceta2piKS.dec new file mode 100644 index 0000000..2500864 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaceta2piKS.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: anti-B0 -> Eta_c K0s, B0 -> X # +# | |->pi+pi- # +# | # +# |-> eta 2pi # +# + cc # +# # +# Author: G. London # +# Created: 10/March/2000 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta_c eta_c +Alias MyK_S0 K_S0 +Alias MyEta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyEta_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta_c +0.0550 MyEta pi+ pi- PHSP; +Enddecay +# +Decay MyEta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etakk_phsp.dec b/BaBar_2014/B0B0bar_etakk_phsp.dec new file mode 100644 index 0000000..99160e5 --- /dev/null +++ b/BaBar_2014/B0B0bar_etakk_phsp.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: anti-B0 -> eta K+ K- + cc # +# | # +# g g # +# # +# Author: Vasia Shelkov # +# Date: 30 January 2001 # +################################################### +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 eta K+ K- PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 eta K+ K- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etakpi_phsp.dec b/BaBar_2014/B0B0bar_etakpi_phsp.dec new file mode 100644 index 0000000..17dca70 --- /dev/null +++ b/BaBar_2014/B0B0bar_etakpi_phsp.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: anti-B0 -> eta K+ pi- + cc # +# | # +# g g # +# # +# Author: Vasia Shelkov # +# Date: 30 January 2001 # +################################################### +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 eta K+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 eta pi+ K- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etam3pi_Ks.dec b/BaBar_2014/B0B0bar_etam3pi_Ks.dec new file mode 100644 index 0000000..9f4d598 --- /dev/null +++ b/BaBar_2014/B0B0bar_etam3pi_Ks.dec @@ -0,0 +1,49 @@ + ##################################################### + # # + # Decay: B0 -> eta Ks B0bar -> X + c.c. # + # | | # + # | | -> pi+ pi- # + # ! # + # ! -> pi+ pi- pi0 # + # # + # # + # # + # Author: P. Bloom # + # Created: 19/March/01 # + ##################################################### + +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myeta eta +Alias MyK_S0 K_S0 +# +# Define CP parameters +# +Define beta 0.39 +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etam3pi_Kst0mKpi.dec b/BaBar_2014/B0B0bar_etam3pi_Kst0mKpi.dec new file mode 100644 index 0000000..37e5962 --- /dev/null +++ b/BaBar_2014/B0B0bar_etam3pi_Kst0mKpi.dec @@ -0,0 +1,53 @@ + #################################################### + # # + # Decay: B0 -> eta K*0 B0bar -> X + c.c. # + # | | # + # | -> K+ pi- # + # | # + # -> pi+ pi- pi0 # + # # + # # + # Author: J.Roy 28/March/00 # + # (jroy@pizero.colorado.edu) # + # # + ##################################################### + + +# +# +Alias Myeta eta +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias Myanti-Kstar0 anti-K*0 +ChargeConj MyB0 Myanti-B0 +ChargeConj MyKstar0 Myanti-Kstar0 +# +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyKstar0 Myeta SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-Kstar0 Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-Kstar0 +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etam3pi_Kst0mKspi0m2pi0.dec b/BaBar_2014/B0B0bar_etam3pi_Kst0mKspi0m2pi0.dec new file mode 100644 index 0000000..e3a62e9 --- /dev/null +++ b/BaBar_2014/B0B0bar_etam3pi_Kst0mKspi0m2pi0.dec @@ -0,0 +1,59 @@ + ##################################################### + # # + # Decay: B0 -> eta K*0 B0bar -> X + c.c. # + # | | # + # | -> K0_S pi0 # + # | | # + # | ->pi0 pi0 # + # -> pi+ pi- pi0 # + # # + # # + # Author: K.Ulmer 19/March/04 # + # (keith.ulmer@colorado.edu) # + # # + ##################################################### + + +# +# +Alias Myeta eta +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias Myanti-Kstar0 anti-K*0 +Alias MyK_S0 K_S0 +ChargeConj MyB0 Myanti-B0 +ChargeConj MyKstar0 Myanti-Kstar0 +# +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyKstar0 Myeta SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-Kstar0 Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-Kstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etam3pi_eta.dec b/BaBar_2014/B0B0bar_etam3pi_eta.dec new file mode 100644 index 0000000..3bc9048 --- /dev/null +++ b/BaBar_2014/B0B0bar_etam3pi_eta.dec @@ -0,0 +1,42 @@ + ##################################################### + # # + # Decay: B0 -> eta eta B0bar -> X + c.c. # + # | # + # | # + # ! # + # ! -> pi+ pi- pi0 # + # # + # The second eta is generic. # + # The decay is unspecified # + # # + # Author: John LoSecco # + # Created: 23/August/00 # + # Submitted by J. LoSecco (losecco@nd.edu) # + ##################################################### + + +# +# + +Alias Myeta eta +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.500 myB0 anti-B0 VSS; +0.500 B0 myantiB0 VSS; +Enddecay +# +Decay myB0 +1.0000 Myeta eta PHSP; +Enddecay +# +Decay myantiB0 +1.0000 Myeta eta PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etam3pi_phi.dec b/BaBar_2014/B0B0bar_etam3pi_phi.dec new file mode 100644 index 0000000..548c7fc --- /dev/null +++ b/BaBar_2014/B0B0bar_etam3pi_phi.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> phi Eta, B0 -> X # +# |-> K+K- |-> pi+ pi- pi0 # +# # +# + cc # +# # +# Author: P. Bloom # +# Created: 24/Sep/01 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyEta eta +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyEta SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi MyEta SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyEta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etam3pi_pi0.dec b/BaBar_2014/B0B0bar_etam3pi_pi0.dec new file mode 100644 index 0000000..20ed079 --- /dev/null +++ b/BaBar_2014/B0B0bar_etam3pi_pi0.dec @@ -0,0 +1,42 @@ + ##################################################### + # # + # Decay: B0 -> eta pi0 B0bar -> X + c.c. # + # | # + # | # + # ! # + # ! -> pi+ pi- pi0 # + # # + # # + # # + # Author: John LoSecco # + # Created: 23/August/00 # + # Submitted by J. LoSecco (losecco@nd.edu) # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.500 myB0 anti-B0 VSS; +0.500 B0 myantiB0 VSS; +Enddecay +# +Decay myB0 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay myantiB0 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etam3pi_rhompipi.dec b/BaBar_2014/B0B0bar_etam3pi_rhompipi.dec new file mode 100644 index 0000000..935c139 --- /dev/null +++ b/BaBar_2014/B0B0bar_etam3pi_rhompipi.dec @@ -0,0 +1,59 @@ +################################################### +# # +# B0 -> eta rho , B0~ -> X + c.c. # +# |-> pi+pi- # +# |-> 2gamma # +# Author: Mirna van Hoek # +# e-mail: mirna@slac.stanford.edu # +# Created: 2000/12/01 # +################################################### +# +# +Define dm .464e12 +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta eta +Alias MyRho0 rho0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay MyEta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyRho0 +0.500 pi+ pi- VSS; +0.500 pi- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etamgg_Ks.dec b/BaBar_2014/B0B0bar_etamgg_Ks.dec new file mode 100644 index 0000000..d3c7473 --- /dev/null +++ b/BaBar_2014/B0B0bar_etamgg_Ks.dec @@ -0,0 +1,49 @@ + ##################################################### + # # + # Decay: B0 -> eta Ks B0bar -> X + c.c. # + # | | # + # | | -> pi+ pi- # + # ! # + # ! -> pi+ pi- pi0 # + # # + # # + # # + # Author: P. Bloom # + # Created: 19/March/01 # + ##################################################### + +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myeta eta +Alias MyK_S0 K_S0 +# +# Define CP parameters +# +Define beta 0.39 +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etamgg_Kst0mKpi.dec b/BaBar_2014/B0B0bar_etamgg_Kst0mKpi.dec new file mode 100644 index 0000000..b7f7619 --- /dev/null +++ b/BaBar_2014/B0B0bar_etamgg_Kst0mKpi.dec @@ -0,0 +1,53 @@ + #################################################### + # # + # Decay: B0 -> eta K*0 B0bar -> X + c.c. # + # | | # + # | -> K+ pi- # + # | # + # -> gamma gamma # + # # + # # + # Author: J.Roy 28/March/00 # + # (jroy@pizero.colorado.edu) # + # # + ##################################################### + + +# +# +Alias Myeta eta +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias Myanti-Kstar0 anti-K*0 +ChargeConj MyB0 Myanti-B0 +ChargeConj MyKstar0 Myanti-Kstar0 +# +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyKstar0 Myeta SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-Kstar0 Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-Kstar0 +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etamgg_Kst0mKspi0m2pi0.dec b/BaBar_2014/B0B0bar_etamgg_Kst0mKspi0m2pi0.dec new file mode 100644 index 0000000..223c273 --- /dev/null +++ b/BaBar_2014/B0B0bar_etamgg_Kst0mKspi0m2pi0.dec @@ -0,0 +1,60 @@ + #################################################### + # # + # Decay: B0 -> eta K*0 B0bar -> X + c.c. # + # | | # + # | -> K0_S pi0 # + # | | # + # | ->pi0 pi0 # + # | # + # -> gamma gamma # + # # + # # + # Author: K.Ulmer 19/March/04 # + # (keith.ulmer@colorado.edu) # + # # + ##################################################### + + +# +# +Alias Myeta eta +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyKstar0 K*0 +Alias Myanti-Kstar0 anti-K*0 +Alias MyK_S0 K_S0 +ChargeConj MyB0 Myanti-B0 +ChargeConj MyKstar0 Myanti-Kstar0 +# +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyKstar0 Myeta SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myanti-Kstar0 Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-Kstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etamgg_eta.dec b/BaBar_2014/B0B0bar_etamgg_eta.dec new file mode 100644 index 0000000..fbac04f --- /dev/null +++ b/BaBar_2014/B0B0bar_etamgg_eta.dec @@ -0,0 +1,42 @@ + ##################################################### + # # + # Decay: B0 -> eta eta B0bar -> X + c.c. # + # | # + # | # + # ! # + # ! -> gamma gamma # + # # + # The second eta is generic. # + # The decay is unspecified # + # # + # Author: John LoSecco # + # Created: 24/April/01 # + # Submitted by J. LoSecco (losecco@nd.edu) # + ##################################################### + + +# +# + +Alias Myeta eta +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.500 myB0 anti-B0 VSS; +0.500 B0 myantiB0 VSS; +Enddecay +# +Decay myB0 +1.0000 Myeta eta PHSP; +Enddecay +# +Decay myantiB0 +1.0000 Myeta eta PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etamgg_phi.dec b/BaBar_2014/B0B0bar_etamgg_phi.dec new file mode 100644 index 0000000..c60c6bb --- /dev/null +++ b/BaBar_2014/B0B0bar_etamgg_phi.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> phi Eta, B0 -> X # +# |-> K+K- |-> gamma gamma # +# # +# + cc # +# # +# Author: P. Bloom # +# Created: 24/Sep/01 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyEta eta +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyEta SVS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi MyEta SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyEta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etamgg_pi0.dec b/BaBar_2014/B0B0bar_etamgg_pi0.dec new file mode 100644 index 0000000..a52770e --- /dev/null +++ b/BaBar_2014/B0B0bar_etamgg_pi0.dec @@ -0,0 +1,42 @@ + ##################################################### + # # + # Decay: B0 -> eta pi0 B0bar -> X + c.c. # + # | # + # | # + # ! # + # ! -> gamma gamma # + # # + # # + # # + # Author: John LoSecco # + # Created: 24/April/01 # + # Submitted by J. LoSecco (losecco@nd.edu) # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.500 myB0 anti-B0 VSS; +0.500 B0 myantiB0 VSS; +Enddecay +# +Decay myB0 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay myantiB0 +1.0000 Myeta pi0 PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etamgg_rhompipi.dec b/BaBar_2014/B0B0bar_etamgg_rhompipi.dec new file mode 100644 index 0000000..261e172 --- /dev/null +++ b/BaBar_2014/B0B0bar_etamgg_rhompipi.dec @@ -0,0 +1,59 @@ +################################################### +# # +# B0 -> eta rho , B0~ -> X + c.c. # +# |-> pi+pi- # +# |-> 2gamma # +# Author: Mirna van Hoek # +# e-mail: mirna@slac.stanford.edu # +# Created: 2000/12/01 # +################################################### +# +# +Define dm .464e12 +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyEta eta +Alias MyRho0 rho0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay Myanti-B0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay MyEta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyRho0 +0.500 pi+ pi- VSS; +0.500 pi- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapD0_k3pi.dec b/BaBar_2014/B0B0bar_etapD0_k3pi.dec new file mode 100644 index 0000000..41cfe68 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapD0_k3pi.dec @@ -0,0 +1,60 @@ +########################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 eta' # +# | | # +# | |->eta pi+pi- # +# | | # +# | | # +# | |-> gamma gamma # +# | # +# |->K-pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 Myetap PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 Myetap PHSP; +Enddecay + + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + + + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + +End + + + diff --git a/BaBar_2014/B0B0bar_etapD0_kpi.dec b/BaBar_2014/B0B0bar_etapD0_kpi.dec new file mode 100644 index 0000000..ed9b366 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapD0_kpi.dec @@ -0,0 +1,57 @@ +########################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 eta' # +# | | # +# | |->eta pi+pi- # +# | | # +# | | # +# | |-> gamma gamma # +# | # +# |->K-pi+ # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 Myetap PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 Myetap PHSP; +Enddecay + + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_etapD0_kpipi0.dec b/BaBar_2014/B0B0bar_etapD0_kpipi0.dec new file mode 100644 index 0000000..915e73f --- /dev/null +++ b/BaBar_2014/B0B0bar_etapD0_kpipi0.dec @@ -0,0 +1,55 @@ +########################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 eta' # +# | | # +# | |->eta pi+pi- # +# | | # +# | | # +# | |-> gamma gamma # +# | # +# |->K-pi+pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 Myetap PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 Myetap PHSP; +Enddecay + + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_etapDstar0_D0gamma_k3pi.dec b/BaBar_2014/B0B0bar_etapDstar0_D0gamma_k3pi.dec new file mode 100644 index 0000000..8a799ba --- /dev/null +++ b/BaBar_2014/B0B0bar_etapDstar0_D0gamma_k3pi.dec @@ -0,0 +1,67 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta' # +# | | # +# | eta pi+pi- # +# | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myetap SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_etapDstar0_D0gamma_kpi.dec b/BaBar_2014/B0B0bar_etapDstar0_D0gamma_kpi.dec new file mode 100644 index 0000000..fa65a03 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapDstar0_D0gamma_kpi.dec @@ -0,0 +1,70 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta' # +# | | # +# | eta pi+pi- # +# | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K+ pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myetap SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_etapDstar0_D0gamma_kpipi0.dec b/BaBar_2014/B0B0bar_etapDstar0_D0gamma_kpipi0.dec new file mode 100644 index 0000000..518a2fe --- /dev/null +++ b/BaBar_2014/B0B0bar_etapDstar0_D0gamma_kpipi0.dec @@ -0,0 +1,68 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta' # +# | | # +# | eta pi+pi- # +# | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K+ pi- pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myetap SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_etapDstar0_D0pi0_k3pi.dec b/BaBar_2014/B0B0bar_etapDstar0_D0pi0_k3pi.dec new file mode 100644 index 0000000..179ffb3 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapDstar0_D0pi0_k3pi.dec @@ -0,0 +1,68 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta' # +# | | # +# | eta pi+pi- # +# | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myetap SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_etapDstar0_D0pi0_kpi.dec b/BaBar_2014/B0B0bar_etapDstar0_D0pi0_kpi.dec new file mode 100644 index 0000000..05e6577 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapDstar0_D0pi0_kpi.dec @@ -0,0 +1,71 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta' # +# | | # +# | eta pi+pi- # +# | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K+ pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myetap SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + + +End + + diff --git a/BaBar_2014/B0B0bar_etapDstar0_D0pi0_kpipi0.dec b/BaBar_2014/B0B0bar_etapDstar0_D0pi0_kpipi0.dec new file mode 100644 index 0000000..c8d8510 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapDstar0_D0pi0_kpipi0.dec @@ -0,0 +1,69 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 eta' # +# | | # +# | eta pi+pi- # +# | # +# | |->gamma gamma # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K+ pi- pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myeta eta +Alias Myetap eta' + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myetap SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myetap +0.4370 pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +0.3925 gamma gamma PHSP; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_KSpi0.dec b/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_KSpi0.dec new file mode 100644 index 0000000..8fbf2d4 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_KSpi0.dec @@ -0,0 +1,62 @@ + ##################################################### + # # + # Decay: anti-B0 (B0)-> eta' K* TheOtherB0-> X # + # | | # + # | |-> K0S pi0 # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: N. Berger # + # Created: 13/November/99 # + # # + ##################################################### + + + +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar0 K*0 +Alias MyAnti-Kstar0 anti-K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyKstar0 MyEta' SVS; +Enddecay +# +Decay MyAnti-B0 +1.000 MyAnti-Kstar0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyAnti-Kstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_KSpi0_2pi0.dec b/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_KSpi0_2pi0.dec new file mode 100644 index 0000000..541a995 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_KSpi0_2pi0.dec @@ -0,0 +1,64 @@ + ##################################################### + # # + # Decay: anti-B0 (B0)-> eta' K* TheOtherB0-> X # + # | | # + # | |-> K0S pi0 # + # | | # + # | |->pi0 pi0 # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: K. Ulmer keith.ulmer@colorado.edu # + # Created: 15/March/04 # + # # + ##################################################### + + + +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar0 K*0 +Alias MyAnti-Kstar0 anti-K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyKstar0 MyEta' SVS; +Enddecay +# +Decay MyAnti-B0 +1.000 MyAnti-Kstar0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyAnti-Kstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_Kpi.dec b/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_Kpi.dec new file mode 100644 index 0000000..38afc7c --- /dev/null +++ b/BaBar_2014/B0B0bar_etapKstar_eta2pi_gg_Kpi.dec @@ -0,0 +1,58 @@ + ######################################################## + # # + # Decay: anti-B0 (B0)-> eta' K*0(bar) TheOtherB0-> X # + # | | # + # | |-> K+ pi- / K- pi+ # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: N. Berger # + # Created: 13/November/99 # + # # + ######################################################## + + + +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar0 K*0 +Alias MyAnti-Kstar0 anti-K*0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyKstar0 MyEta' SVS; +Enddecay +# +Decay MyAnti-B0 +1.000 MyAnti-Kstar0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay MyAnti-Kstar0 +1.000 K- pi+ VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etapKstar_eta2pi_pipipi0_Kpi.dec b/BaBar_2014/B0B0bar_etapKstar_eta2pi_pipipi0_Kpi.dec new file mode 100644 index 0000000..d8e5251 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapKstar_eta2pi_pipipi0_Kpi.dec @@ -0,0 +1,57 @@ + ######################################################## + # # + # Decay: anti-B0 (B0)-> eta' K*0(bar) TheOtherB0-> X # + # | | # + # | |-> K+ pi- / K- pi+ # + # | # + # |-> pi+ pi- eta # + # |-> pi+ pi- pi0 # + # # + # # + # # + # Author: N. Berger # + # Created: 13/November/99 # + # # + ######################################################## + + + +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar0 K*0 +Alias MyAnti-Kstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyKstar0 MyEta' SVS; +Enddecay +# +Decay MyAnti-B0 +1.000 MyAnti-Kstar0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay MyAnti-Kstar0 +1.000 K- pi+ VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etapKstar_rhog_Kspi0.dec b/BaBar_2014/B0B0bar_etapKstar_rhog_Kspi0.dec new file mode 100644 index 0000000..1c009ba --- /dev/null +++ b/BaBar_2014/B0B0bar_etapKstar_rhog_Kspi0.dec @@ -0,0 +1,59 @@ + ##################################################### + # # + # Decay: B0 -> eta' K*0 B0bar -> X + c.c. # + # | | # + # | -> K0_S pi0 # + # | | # + # | ->pi+ pi- # + # | # + # -> rho gamma # + # |-> pi+ pi- # + # # + # # + # Author: K.Ulmer 30/June/04 # + # (keith.ulmer@colorado.edu) # + # # + ##################################################### + + +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyEta' eta' +Alias MyKstar0 K*0 +Alias MyAnti-Kstar0 anti-K*0 +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyKstar0 MyEta' SVS; +Enddecay +# +Decay MyAnti-B0 +1.000 MyAnti-Kstar0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyAnti-Kstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapKstar_rhogamma_Kpi.dec b/BaBar_2014/B0B0bar_etapKstar_rhogamma_Kpi.dec new file mode 100644 index 0000000..1ccab2a --- /dev/null +++ b/BaBar_2014/B0B0bar_etapKstar_rhogamma_Kpi.dec @@ -0,0 +1,61 @@ + ##################################################### + # # + # Decay: anti-B0 (B0)-> eta' K* TheOtherB0-> X # + # | | # + # | |-> K+ pi- / K- pi+ # + # | # + # |-> rho gamma # + # | # + # |-> pi+ pi- # + # # + # # + # Author: N. Berger # + # Created: 13/November/99 # + # # + ##################################################### + +# + +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar0 K*0 +Alias MyAnti-Kstar0 anti-K*0 +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyKstar0 MyEta' SVS; +Enddecay +# +Decay MyAnti-B0 +1.000 MyAnti-Kstar0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay MyAnti-Kstar0 +1.000 K- pi+ VSS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0bar_etapipi.dec b/BaBar_2014/B0B0bar_etapipi.dec new file mode 100644 index 0000000..8259da3 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapipi.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B0 -> eta pi+ pi- (non-resonant) + c.c. # +# # +# Author: John LoSecco losecco@nd.edu * +# Created: 14/jul/01 # +# # +################################################### +# +# Decay table for B0 + -> eta pi+ pi- (non-resonant) +# using phase space +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +# +Decay Upsilon(4S) +0.500 MyB0bar B0 VSS; +0.500 MyB0 anti-B0 VSS; +Enddecay +# +Decay MyB0 +1.000 eta pi+ pi- PHSP; +Enddecay +# +Decay MyB0bar +1.000 eta pi- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_etapipi_phsp.dec b/BaBar_2014/B0B0bar_etapipi_phsp.dec new file mode 100644 index 0000000..d78620c --- /dev/null +++ b/BaBar_2014/B0B0bar_etapipi_phsp.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: anti-B0 -> eta pi+ pi- + cc # +# | # +# g g # +# # +# Author: Vasia Shelkov # +# Date: 30 January 2001 # +################################################### +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 eta pi+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 eta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etapm5pi_KL.dec b/BaBar_2014/B0B0bar_etapm5pi_KL.dec new file mode 100644 index 0000000..41f1850 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapm5pi_KL.dec @@ -0,0 +1,41 @@ + ##################################################### + # # + # Decay:anti-B0(B0)-> eta' K_L0 TheOtherB0-> X # + # | # + # |-> pi+ pi- eta # + # | # + # |-> pi+ pi- pi0 # + # # + # # + # # + # Author : V. E. Ozcan # + # Created : 13/August/01 # + # Submitted by V. E. Ozcan ( veysi@slac ) # + ##################################################### + +Alias MyantiB0 anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyantiB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiB0 +1.0000 Myeta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapm5pi_KS.dec b/BaBar_2014/B0B0bar_etapm5pi_KS.dec new file mode 100644 index 0000000..ca78d61 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapm5pi_KS.dec @@ -0,0 +1,47 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' K_S0 TheOtherB0-> X # + # | | # + # | |-> pi+ pi- # + # | # + # |-> pi+ pi- eta # + # |-> pi+ pi- pi0 # + # # + # # + # # + # Author: F. Palomb0 # + # Created: 14/March/00 # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +Alias MyKS0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0B +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyKS0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapm5pi_KS_00.dec b/BaBar_2014/B0B0bar_etapm5pi_KS_00.dec new file mode 100644 index 0000000..2fd2588 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapm5pi_KS_00.dec @@ -0,0 +1,46 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' K_S0 TheOtherB0-> X # + # | | # + # | |-> pi0 pi0 # + # | # + # |-> pi+ pi- eta # + # |-> pi+ pi- pi0 # + # # + # # + # # + # Author: P. Bloom # + # Created: 22/July/03 # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +Alias MyKS0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0B +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyKS0 +1.000 pi0 pi0 PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmeppmgg_f0.dec b/BaBar_2014/B0B0bar_etapmeppmgg_f0.dec new file mode 100644 index 0000000..08c625c --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmeppmgg_f0.dec @@ -0,0 +1,46 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' f0 TheOtherB0-> X # + # |-> eta pi+ pi- # + # |-> gamma gamma # + # # + # Author: Paul C. Bloom bloom@slac.stanford.edu # + # Created: 27/July/04 # + ##################################################### +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myf0 f_0 +Alias MyEta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0bar +1.0000 Myeta' Myf0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +Enddecay +# +Decay MyB0 +1.0000 Myeta' Myf0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay Myf0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_KL.dec b/BaBar_2014/B0B0bar_etapmgg2pi_KL.dec new file mode 100644 index 0000000..ed924ba --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_KL.dec @@ -0,0 +1,41 @@ + ##################################################### + # # + # Decay:anti-B0(B0)-> eta' K_L0 TheOtherB0-> X # + # | # + # |-> pi+ pi- eta # + # | # + # |-> gamma gamma # + # # + # # + # # + # Author : V. E. Ozcan # + # Created : 07/August/01 # + # Submitted by V. E. Ozcan ( veysi@slac ) # + ##################################################### + +Alias MyantiB0 anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyantiB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiB0 +1.0000 Myeta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_KS.dec b/BaBar_2014/B0B0bar_etapmgg2pi_KS.dec new file mode 100644 index 0000000..b625a44 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_KS.dec @@ -0,0 +1,47 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' K_S0 TheOtherB0-> X # + # | | # + # | |-> pi+ pi- # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: F. Palombo, J. Smith # + # Created: 11/February/99 # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +Alias MyKS0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0B +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyKS0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_KS_00.dec b/BaBar_2014/B0B0bar_etapmgg2pi_KS_00.dec new file mode 100644 index 0000000..199ba44 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_KS_00.dec @@ -0,0 +1,46 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' K_S0 TheOtherB0-> X # + # | | # + # | |-> pi0 pi0 # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: P. Bloom # + # Created: 22/July/03 # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +Alias MyKS0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0B +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyKS0 +1.000 pi0 pi0 PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_KSm2pi0.dec b/BaBar_2014/B0B0bar_etapmgg2pi_KSm2pi0.dec new file mode 100644 index 0000000..4001ae5 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_KSm2pi0.dec @@ -0,0 +1,56 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' K_S0 TheOtherB0-> X # + # | | # + # | |-> pi0 pi0 # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: K. Ulmer keith.ulmer@colorado.edu # + # Created: 19/March/04 # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +Alias MyKS0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0B +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyKS0 +1.000 pi0 pi0 PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_etam3pi.dec b/BaBar_2014/B0B0bar_etapmgg2pi_etam3pi.dec new file mode 100644 index 0000000..613771f --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_etam3pi.dec @@ -0,0 +1,46 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' eta TheOtherB0-> X # + # | | # + # | |-> pi0 pi+ pi- # + # | |-> gamma gamma # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: P. Bloom # + # Created: 14/September/01 # + # Fixed: 07/July/03 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta1 eta +Alias Myeta2 eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' Myeta1 PHSP; +Enddecay +# +Decay MyB0bar +1.0000 Myeta' Myeta1 PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta2 PHSP; +Enddecay +# +Decay Myeta1 +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay Myeta2 +1.000 gamma gamma PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_etamgg.dec b/BaBar_2014/B0B0bar_etapmgg2pi_etamgg.dec new file mode 100644 index 0000000..1a303fd --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_etamgg.dec @@ -0,0 +1,41 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' eta TheOtherB0-> X # + # | | # + # | |-> gamma gamma # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: P. Bloom # + # Created: 14/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' Myeta PHSP; +Enddecay +# +Decay MyB0bar +1.0000 Myeta' Myeta PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_etapmgg2pi.dec b/BaBar_2014/B0B0bar_etapmgg2pi_etapmgg2pi.dec new file mode 100644 index 0000000..a11baf2 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_etapmgg2pi.dec @@ -0,0 +1,41 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' eta' TheOtherB0-> X # + # | | # + # | |-> pi+ pi- eta # + # | |->gam gam # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: P. Bloom # + # Created: 24/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' Myeta' PHSP; +Enddecay +# +Decay MyB0bar +1.0000 Myeta' Myeta' PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_omega.dec b/BaBar_2014/B0B0bar_etapmgg2pi_omega.dec new file mode 100644 index 0000000..3b8d673 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_omega.dec @@ -0,0 +1,45 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> omega eta' TheOtherB0-> X # + # | | # + # | |-> eta pi+ pi- # + # | |-> gamma gamma # + # |-> pi+ pi- pi0 # + # # + # # + # # + # Author: P. Bloom # + # Created: 24/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myomega omega +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myomega Myeta' SVS; +Enddecay +# +Decay MyB0bar +1.0000 Myomega Myeta' SVS; +Enddecay +# +Decay Myomega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_phi.dec b/BaBar_2014/B0B0bar_etapmgg2pi_phi.dec new file mode 100644 index 0000000..a445dbb --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_phi.dec @@ -0,0 +1,45 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> phi eta' TheOtherB0-> X # + # | | # + # | |-> eta pi+ pi- # + # | |-> gamma gamma # + # |-> K+K- # + # # + # # + # # + # Author: P. Bloom # + # Created: 24/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +Alias Myphi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myphi Myeta' SVS; +Enddecay +# +Decay MyB0bar +1.0000 Myphi Myeta' SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmgg2pi_pi0.dec b/BaBar_2014/B0B0bar_etapmgg2pi_pi0.dec new file mode 100644 index 0000000..aba977f --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmgg2pi_pi0.dec @@ -0,0 +1,51 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' pi00 TheOtherB0-> X # + # | | # + # | |-> gamma gamma # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: P. Bloom # + # Created: 22/August/01 # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' pi0 PHSP; +Enddecay +# +Decay MyB0B +1.0000 Myeta' pi0 PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_etapmrho0g_KL.dec b/BaBar_2014/B0B0bar_etapmrho0g_KL.dec new file mode 100644 index 0000000..1d3e102 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrho0g_KL.dec @@ -0,0 +1,36 @@ + ##################################################### + # # + # Decay:anti-B0(B0)-> eta' K_L0 TheOtherB0-> X # + # | # + # |-> gamma rho0 # + # | # + # |-> pi+ pi- # + # # + # # + # # + # Author : V. E. Ozcan # + # Created : 13/August/01 # + # Submitted by V. E. Ozcan ( veysi@slac ) # + ##################################################### + +Alias MyantiB0 anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyantiB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiB0 +1.0000 Myeta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmrho0g_KS.dec b/BaBar_2014/B0B0bar_etapmrho0g_KS.dec new file mode 100644 index 0000000..eec666d --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrho0g_KS.dec @@ -0,0 +1,42 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' K_S0 TheOtherB0-> X # + # | # + # |-> gamma rho0 # + # | # + # |-> pi+ pi- # + # # + # # + # # + # Author: F. Palombo, J. Smith # + # Created: 11/February/99 # + # Corrected eta' decay (march 00) # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias MyKS0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0B +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyKS0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmrho0g_KS_00.dec b/BaBar_2014/B0B0bar_etapmrho0g_KS_00.dec new file mode 100644 index 0000000..c1baa93 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrho0g_KS_00.dec @@ -0,0 +1,40 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' K_S0 TheOtherB0-> X # + # | |->pi0 pi0 # + # |-> gamma rho0 # + # | # + # |-> pi+ pi- # + # # + # # + # # + # Author: P. Bloom # + # Created: 22/July/03 # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias MyKS0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0B +1.0000 Myeta' MyKS0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyKS0 +1.000 pi0 pi0 PHSP; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmrho0g_pi0.dec b/BaBar_2014/B0B0bar_etapmrho0g_pi0.dec new file mode 100644 index 0000000..7c45539 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrho0g_pi0.dec @@ -0,0 +1,45 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' pi0 TheOtherB0-> X # + # | |-> gamma gamma # + # |-> gamma rho0 # + # | # + # |-> pi+ pi- # + # # + # # + # # + # Author: P. Bloom # + # Created: 22/August/01 # + ##################################################### + +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' pi0 PHSP; +Enddecay +# +Decay MyB0B +1.0000 Myeta' pi0 PHSP; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End + + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_etapmrhog_etam3pi.dec b/BaBar_2014/B0B0bar_etapmrhog_etam3pi.dec new file mode 100644 index 0000000..ba13135 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrhog_etam3pi.dec @@ -0,0 +1,41 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' eta TheOtherB0-> X # + # | | # + # | |-> pi0 pi+ pi- # + # | |-> gamma gamma # + # |-> rho0 gamma # + # |-> pi+ pi- # + # # + # # + # # + # Author: P. Bloom # + # Created: 14/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' Myeta PHSP; +Enddecay +# +Decay MyB0bar +1.0000 Myeta' Myeta PHSP; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmrhog_etamgg.dec b/BaBar_2014/B0B0bar_etapmrhog_etamgg.dec new file mode 100644 index 0000000..dd4f4ee --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrhog_etamgg.dec @@ -0,0 +1,39 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' eta TheOtherB0-> X # + # | | # + # | |-> gamma gamma # + # |-> rho0 gamma # + # |-> pi+ pi- # + # # + # # + # Author: P. Bloom # + # Created: 14/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta' Myeta PHSP; +Enddecay +# +Decay MyB0bar +1.0000 Myeta' Myeta PHSP; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmrhog_etapmgg2pi.dec b/BaBar_2014/B0B0bar_etapmrhog_etapmgg2pi.dec new file mode 100644 index 0000000..d4d09c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrhog_etapmgg2pi.dec @@ -0,0 +1,46 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' eta' TheOtherB0-> X # + # | | # + # | |-> eta pi+ pi- # + # | |-> gamma gamma # + # |-> rho0 gamma # + # |-> pi+ pi- # + # # + # # + # # + # Author: P. Bloom # + # Created: 14/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta'1 eta' +Alias Myeta'2 eta' +Alias Myeta eta +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myeta'1 Myeta'2 PHSP; +Enddecay +# +Decay MyB0bar +1.0000 Myeta'1 Myeta'2 PHSP; +Enddecay +# +Decay Myeta'1 +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myeta'2 +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmrhog_f0.dec b/BaBar_2014/B0B0bar_etapmrhog_f0.dec new file mode 100644 index 0000000..0d85a79 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrhog_f0.dec @@ -0,0 +1,41 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' f0 TheOtherB0-> X # + # |-> rho0 gamma # + # |-> pi+ pi- # + # # + # Author: Keith Ulmer keith.ulmer@colorado.edu # + # Created: 19/March/04 # + ##################################################### +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myf0 f_0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0bar +1.0000 Myeta' Myf0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +Enddecay +# +Decay MyB0 +1.0000 Myeta' Myf0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myf0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + diff --git a/BaBar_2014/B0B0bar_etapmrhog_omega.dec b/BaBar_2014/B0B0bar_etapmrhog_omega.dec new file mode 100644 index 0000000..7a33105 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrhog_omega.dec @@ -0,0 +1,40 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' omega TheOtherB0-> X # + # | | # + # | |-> pi+ pi- pi0 # + # |-> rho0 gamma # + # |-> pi+ pi- # + # # + # # + # # + # Author: P. Bloom # + # Created: 14/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myomega omega +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myomega Myeta' SVS; +Enddecay +# +Decay MyB0bar +1.0000 Myomega Myeta' SVS; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myomega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etapmrhog_phi.dec b/BaBar_2014/B0B0bar_etapmrhog_phi.dec new file mode 100644 index 0000000..377ab08 --- /dev/null +++ b/BaBar_2014/B0B0bar_etapmrhog_phi.dec @@ -0,0 +1,41 @@ + ##################################################### + # # + #Decay:anti-B0(B0)-> eta' phi TheOtherB0-> X # + # | | # + # | |-> K+ K- # + # | # + # |-> rho0 gamma # + # |-> pi+ pi- # + # # + # # + # # + # Author: P. Bloom # + # Created: 25/September/01 # + ##################################################### + +Alias MyB0bar anti-B0 +Alias MyB0 B0 +Alias Myeta' eta' +Alias Myphi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 Myphi Myeta' SVS; +Enddecay +# +Decay MyB0bar +1.0000 Myphi Myeta' SVS; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_etaprho_eta2pi_gg_2pi.dec b/BaBar_2014/B0B0bar_etaprho_eta2pi_gg_2pi.dec new file mode 100644 index 0000000..8b1de02 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaprho_eta2pi_gg_2pi.dec @@ -0,0 +1,53 @@ + ######################################################## + # # + # Decay: anti-B0 (B0)-> eta' K*0(bar) TheOtherB0-> X # + # | | # + # | |-> K+ pi- / K- pi+ # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: N. Berger # + # Created: 13/November/99 # + # # + ######################################################## + + + +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyEta' eta' +Alias MyEta eta +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyRho0 MyEta' SVS; +Enddecay +# +Decay MyAnti-B0 +1.000 MyRho0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etaprho_rhog_2pi.dec b/BaBar_2014/B0B0bar_etaprho_rhog_2pi.dec new file mode 100644 index 0000000..85e8bd4 --- /dev/null +++ b/BaBar_2014/B0B0bar_etaprho_rhog_2pi.dec @@ -0,0 +1,52 @@ + ######################################################## + # # + # Decay: anti-B0 (B0)-> eta' rho0 TheOtherB0-> X # + # | | # + # | |-> pi+ pi- # + # | # + # |-> rho gamma # + # |-> pi+ pi- # + # # + # # + # # + # Author: Paul C. Bloom # + # Created: July 18 2001 # + # # + ######################################################## + + + +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyEta' eta' +Alias MyRho0 rho0 +Define dm .464e12 + +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyRho0 MyEta' SVS; +Enddecay +# +Decay MyB0bar +1.000 MyRho0 MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_etau.dec b/BaBar_2014/B0B0bar_etau.dec new file mode 100644 index 0000000..b2e2228 --- /dev/null +++ b/BaBar_2014/B0B0bar_etau.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: anti-B0 -> mu+ tau-, B0 -> X # +# # +# + cc # +# # +# Author: J. Cochran # +# Date: 19/Apr/01 # +# Initial version modified from B0Bar_e+e-.dec # +# # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +0.5000 e+ tau- SLL; +0.5000 e- tau+ SLL; +Enddecay +# +Decay Myanti-B0 +0.5000 e+ tau- SLL; +0.5000 e- tau+ SLL; +Enddecay +# + +End + diff --git a/BaBar_2014/B0B0bar_f01370K0L_f0pipi.dec b/BaBar_2014/B0B0bar_f01370K0L_f0pipi.dec new file mode 100644 index 0000000..f6b3335 --- /dev/null +++ b/BaBar_2014/B0B0bar_f01370K0L_f0pipi.dec @@ -0,0 +1,52 @@ +################################################### +# # +# B0 -> f0(1370) K0L + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Mathew Graham # +# Created: 19-Apr-04 # +# # +################################################### +# +# Decay table for B0 -> f0(1370) K0L using phase space. +# The f0(1370) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0-1370) = 1.434 +- 0.018 GeV/c^2 +# G(f0-1370) = 0.173 +- 0.032 GeV/c^2 +# ) +# +Particle f'_0 1.434 0.173 +# +ChangeMassMin f'_0 0.40 +ChangeMassMax f'_0 2.50 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf'0 f'_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf'0 K_L0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf'0 K_L0 PHSP; +Enddecay +# +Decay Myf'0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f01370K0s_f0pipi.dec b/BaBar_2014/B0B0bar_f01370K0s_f0pipi.dec new file mode 100644 index 0000000..a9ea4ea --- /dev/null +++ b/BaBar_2014/B0B0bar_f01370K0s_f0pipi.dec @@ -0,0 +1,52 @@ +################################################### +# # +# B0 -> f0(1370) K0s + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Andreas Hoecker # +# Created: 06-Jan-04 # +# # +################################################### +# +# Decay table for B0 -> f0(1370) K0s using phase space. +# The f0(1370) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0-1370) = 1.434 +- 0.018 GeV/c^2 +# G(f0-1370) = 0.173 +- 0.032 GeV/c^2 +# ) +# +Particle f'_0 1.434 0.173 +# +ChangeMassMin f'_0 0.40 +ChangeMassMax f'_0 2.50 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf'0 f'_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf'0 K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf'0 K_S0 PHSP; +Enddecay +# +Decay Myf'0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f01370K0s_f0pipi_sp4.dec b/BaBar_2014/B0B0bar_f01370K0s_f0pipi_sp4.dec new file mode 100644 index 0000000..4d8f141 --- /dev/null +++ b/BaBar_2014/B0B0bar_f01370K0s_f0pipi_sp4.dec @@ -0,0 +1,50 @@ +################################################### +# # +# B0 -> f0(1370) K0s + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Andreas Hoecker # +# Created: 06-Jan-04 # +# # +################################################### +# +# Decay table for B0 -> f0(1370) K0s using phase space. +# The f0(1370) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0-1370) = 1.434 +- 0.018 GeV/c^2 +# G(f0-1370) = 0.173 +- 0.032 GeV/c^2 +# ) +# +Particle f'_0 1.434 0.173 +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf'0 f'_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf'0 K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf'0 K_S0 PHSP; +Enddecay +# +Decay Myf'0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f0K0L_f0KK.dec b/BaBar_2014/B0B0bar_f0K0L_f0KK.dec new file mode 100644 index 0000000..097d488 --- /dev/null +++ b/BaBar_2014/B0B0bar_f0K0L_f0KK.dec @@ -0,0 +1,58 @@ +################################################### +# # +# B0 -> f0(980) K0L + c.c. # +# | # +# | # +# ---> K+ K- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 02/Oct/02 # +# # +# patch by Andreas Hoecker (06-Jan-04) # +# Modified by Matt Graham (19-Apr-04) # +# # +################################################### +# +# Decay table for B0 -> f0(980) K0L using phase space. +# The f0(980) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf0 K_L0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf0 K_L0 PHSP; +Enddecay +# +Decay Myf0 +1.000 K+ K- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f0K0L_f0pipi.dec b/BaBar_2014/B0B0bar_f0K0L_f0pipi.dec new file mode 100644 index 0000000..b8352e2 --- /dev/null +++ b/BaBar_2014/B0B0bar_f0K0L_f0pipi.dec @@ -0,0 +1,58 @@ +################################################### +# # +# B0 -> f0(980) K0L + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 02/Oct/02 # +# # +# patch by Andreas Hoecker (06-Jan-04) # +# Modified by Matt Graham (19-Apr-04) # +# # +################################################### +# +# Decay table for B0 -> f0(980) K0L using phase space. +# The f0(980) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf0 K_L0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf0 K_L0 PHSP; +Enddecay +# +Decay Myf0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f0K0s_f0KK.dec b/BaBar_2014/B0B0bar_f0K0s_f0KK.dec new file mode 100644 index 0000000..eeeba08 --- /dev/null +++ b/BaBar_2014/B0B0bar_f0K0s_f0KK.dec @@ -0,0 +1,57 @@ +################################################### +# # +# B0 -> f0(980) K0s + c.c. # +# | # +# | # +# ---> K+ K- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 02/Oct/02 # +# # +# patch by Andreas Hoecker (06-Jan-04) # +# # +################################################### +# +# Decay table for B0 -> f0(980) K0s using phase space. +# The f0(980) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf0 K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf0 K_S0 PHSP; +Enddecay +# +Decay Myf0 +1.000 K+ K- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f0K0s_f0pipi.dec b/BaBar_2014/B0B0bar_f0K0s_f0pipi.dec new file mode 100644 index 0000000..76fb23f --- /dev/null +++ b/BaBar_2014/B0B0bar_f0K0s_f0pipi.dec @@ -0,0 +1,57 @@ +################################################### +# # +# B0 -> f0(980) K0s + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 02/Oct/02 # +# # +# patch by Andreas Hoecker (06-Jan-04) # +# # +################################################### +# +# Decay table for B0 -> f0(980) K0s using phase space. +# The f0(980) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf0 K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf0 K_S0 PHSP; +Enddecay +# +Decay Myf0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f0K0s_f0pipi_sp4.dec b/BaBar_2014/B0B0bar_f0K0s_f0pipi_sp4.dec new file mode 100644 index 0000000..319a472 --- /dev/null +++ b/BaBar_2014/B0B0bar_f0K0s_f0pipi_sp4.dec @@ -0,0 +1,56 @@ +################################################### +# # +# B0 -> f0(980) K0s + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 02/Oct/02 # +# # +# patch by Andreas Hoecker (06-Jan-04) # +# # +################################################### +# +# Decay table for B0 -> f0(980) K0s using phase space. +# The f0(980) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf0 K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myf0 K_S0 PHSP; +Enddecay +# +Decay Myf0 +1.000 pi+ pi- PHSP; +Enddecay +End + + diff --git a/BaBar_2014/B0B0bar_f0Ks_CP.dec b/BaBar_2014/B0B0bar_f0Ks_CP.dec new file mode 100644 index 0000000..a5c816e --- /dev/null +++ b/BaBar_2014/B0B0bar_f0Ks_CP.dec @@ -0,0 +1,46 @@ +################################################### +# # +# B0 -> f0(980) K0s + c.c. # +# | # +# ---> pi+ pi- # +# # +# CP violation included # +# # +# Author: Jim Smith jgsmith@pizero.colorado.edu # +# Created: 16 July 2004 # +# # +################################################### +# +# +# mass taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# We use with of 60 MeV since that seems favored by our data +# +Particle f_0 0.975 0.060 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Myf0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myf0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_f0pi0.dec b/BaBar_2014/B0B0bar_f0pi0.dec new file mode 100644 index 0000000..abd2be3 --- /dev/null +++ b/BaBar_2014/B0B0bar_f0pi0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# Decay: B0 -> f0 pi0 + cc # +# # +# Author: Adrian Bevan # +# Created: 29/3/01 # +################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPi0 pi0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 f_0 pi0 PHSP; +Enddecay +# +Decay MyB0 +1.0000 f_0 pi0 PHSP; +Enddecay +# +Decay MyPi0 +1.00 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_f0pi0_f0topi0pi0.dec b/BaBar_2014/B0B0bar_f0pi0_f0topi0pi0.dec new file mode 100644 index 0000000..4dbdc3c --- /dev/null +++ b/BaBar_2014/B0B0bar_f0pi0_f0topi0pi0.dec @@ -0,0 +1,32 @@ +################################################### +# # +# Decay: B0 -> f0 pi0 + cc # +# | # +# | # +# \---> pi0 pi0 # +# Author: Adrian Bevan (AB) # bevan@slac.stanford.edu +# Created: 29/3/01 # +# Modified: AB: correction 20/4/01 # +################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 Myf0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay MyB0 +1.0000 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myf0 +1.00 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_gamma_gamma.dec b/BaBar_2014/B0B0bar_gamma_gamma.dec new file mode 100644 index 0000000..bdb280d --- /dev/null +++ b/BaBar_2014/B0B0bar_gamma_gamma.dec @@ -0,0 +1,26 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> gamma gamma # +# | # +# -> X # +# # +# Mail: PSA@SLAC.STANFORD.EDU # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# +Decay myB0 +1.0000 gamma gamma PHSP; +Enddecay +Decay myantiB0 +1.0000 gamma gamma PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_generic.dec b/BaBar_2014/B0B0bar_generic.dec new file mode 100644 index 0000000..4e370d9 --- /dev/null +++ b/BaBar_2014/B0B0bar_generic.dec @@ -0,0 +1,16 @@ +################################################### +# # +# Generic neutral B decays with mixing # +# # +# # +# Contact:Anders Ryd (ryd@slac.stanford.edu) # +# Created: 22/Nov/99 # +################################################### +# +# +Decay Upsilon(4S) +1.00000 B0 anti-B0 VSS_BMIX dm; +Enddecay +# +# +End diff --git a/BaBar_2014/B0B0bar_lambdalambda.dec b/BaBar_2014/B0B0bar_lambdalambda.dec new file mode 100644 index 0000000..2ef2f08 --- /dev/null +++ b/BaBar_2014/B0B0bar_lambdalambda.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: B0B -> Lambda antiLambda # +# # +# Author: A. Roodman Aug/26/02 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 + 1.000 MyLambda0 Myanti-Lambda0 PHSP; +Enddecay +# +Decay Myanti-B0 + 1.000 MyLambda0 Myanti-Lambda0 PHSP; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.00 anti-p- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_lambdalambdaks.dec b/BaBar_2014/B0B0bar_lambdalambdaks.dec new file mode 100644 index 0000000..f8df42a --- /dev/null +++ b/BaBar_2014/B0B0bar_lambdalambdaks.dec @@ -0,0 +1,41 @@ +################################################### +# # +# Decay: B0B0bar -> Lambda antiLambda Ks # +# # +# Author: S. Saremi Oct/02/03 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyLambda0 Myanti-Lambda0 MyKs PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyLambda0 Myanti-Lambda0 MyKs PHSP; +Enddecay +# +Decay MyLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +Decay MyKs +1.000 pi- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_lambdapK.dec b/BaBar_2014/B0B0bar_lambdapK.dec new file mode 100644 index 0000000..dc3ee47 --- /dev/null +++ b/BaBar_2014/B0B0bar_lambdapK.dec @@ -0,0 +1,34 @@ +################################################### +# # +# Decay: B0 -> Lambda Proton K+ + cc # +# # +# Author: T. Hrynova 12/12/03 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myanti-Lambda0 p+ K- PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyLambda0 anti-p- K+ PHSP; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.00 anti-p- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_lambdappi.dec b/BaBar_2014/B0B0bar_lambdappi.dec new file mode 100644 index 0000000..a94b0f9 --- /dev/null +++ b/BaBar_2014/B0B0bar_lambdappi.dec @@ -0,0 +1,35 @@ +################################################### +# # +# Decay: B0b -> Lambda Proton pi+ + cc # +# # +# Author: G. London 2/2/99 # +# modified: 10/2/99 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 + 1.000 Myanti-Lambda0 p+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.000 MyLambda0 anti-p- pi+ PHSP; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.00 anti-p- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_llgamma.dec b/BaBar_2014/B0B0bar_llgamma.dec new file mode 100644 index 0000000..ac5346d --- /dev/null +++ b/BaBar_2014/B0B0bar_llgamma.dec @@ -0,0 +1,36 @@ +############################################################ +# # +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | `-> l- l+ gamma (l = e or mu) # +# | # +# `->X # +# # +# # +# Author: Dieter Best, UC Irvine (best@slac.stanford.edu) # +# Created: 19.July.2002 # +############################################################ +# +Alias myB0 B0 +Alias myAnti-B0 anti-B0 +ChargeConj myB0 myAnti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +0.50000 e+ e- gamma PHSP; +0.50000 mu+ mu- gamma PHSP; +Enddecay +# +Decay myAnti-B0 +0.50000 e+ e- gamma PHSP; +0.50000 mu+ mu- gamma PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_mupmum.dec b/BaBar_2014/B0B0bar_mupmum.dec new file mode 100644 index 0000000..37ad190 --- /dev/null +++ b/BaBar_2014/B0B0bar_mupmum.dec @@ -0,0 +1,33 @@ +################################################### +# # +# Decay: anti-B0 -> mu+ mu-, B0 -> X # +# # +# + cc # +# # +# Author: G.Cavoto # +# Date: 23/Ago/00 # +# Initial version modified from B0Bar_p+p-.dec # +# Use phase space for now # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 mu+ mu- PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 mu+ mu- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_mutau.dec b/BaBar_2014/B0B0bar_mutau.dec new file mode 100644 index 0000000..292df3b --- /dev/null +++ b/BaBar_2014/B0B0bar_mutau.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: anti-B0 -> mu+ tau-, B0 -> X # +# # +# + cc # +# # +# Author: J. Cochran # +# Date: 19/Apr/01 # +# Initial version modified from B0Bar_e+e-.dec # +# # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + +# +Decay MyB0 +0.5000 mu+ tau- SLL; +0.5000 mu- tau+ SLL; +Enddecay +# +Decay Myanti-B0 +0.5000 mu+ tau- SLL; +0.5000 mu- tau+ SLL; +Enddecay +# + +End + diff --git a/BaBar_2014/B0B0bar_noDstarD.dec b/BaBar_2014/B0B0bar_noDstarD.dec new file mode 100644 index 0000000..82eed86 --- /dev/null +++ b/BaBar_2014/B0B0bar_noDstarD.dec @@ -0,0 +1,5058 @@ +#Define the B0B0bar mass difference +Define dm 0.472e12 +Define dgamma 0 +Define qoverp 1 +Define phaseqoverp 0 +# define the values of the CKM angles (alpha=70, beta=40) +Define twoBetaPlusGamma 2.167 +Define betaPlusHalfGamma 1.0835 + +# New definitions for psiKstar modes (Lange, July 26, 2000) +Define PKHplus 0.159 +Define PKHzero 0.775 +Define PKHminus 0.612 +Define PKphHplus 1.563 +Define PKphHzero 0.0 +Define PKphHminus 2.712 + +Define Aplus 0.490 +Define Azero 1.10 +Define Aminus 0.4 +# +Define phAplus 2.5 +Define phAzero 0.0 +Define phAminus -0.17 + +# +# These particle aliases are used in for CP violating decays +# in which the decay distributions depends on how the K* decayed. +# +# +Alias K*L K*0 +Alias K*S K*0 +Alias K*0T K*0 +Alias anti-K*0T anti-K*0 +Alias K*BR anti-K*0 +Alias K*0R K*0 +Alias anti-K_0*0N anti-K_0*0 +Alias K_0*0N K_0*0 +# +ChargeConj K*0T anti-K*0T +ChargeConj K_0*0N anti-K_0*0N +ChargeConj K*0R K*BR +# +#JetSet parameter modifications +# +# O.Long : March 30, 2000 +# Change from using Peterson fragmentation to Lund fragmentation +# with the default parameters (A=0.30, B=0.58) +# +#(Very important that there are no blank spaces in the parameter string!) +# Number of flavor produced. 4 = udsc production (was 5 before) +JetSetPar MSTJ(104)=5 +# turn on initial state radiation (was off before) +JetSetPar MSTJ(107)=1 +#use Lund fragmentation with default parameters +JetSetPar MSTJ(11)=4 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(41)=.30 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(42)=.58 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(43)=.50 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(44)=.90 +#eps_c from CLEO 8/97 +JetSetPar PARJ(54)=-.040 +# eps_b +JetSetPar PARJ(55)=-.004 +#Turn of B0-B0B mixing in JetSet: +JetSetPar MSTJ(26)=0 +# control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1 +JetSetPar PARJ(14)=0.05 +JetSetPar PARJ(15)=0.05 +JetSetPar PARJ(16)=0.05 +JetSetPar PARJ(17)=0.05 +#cut-off parameter used to stop fragmentation process (was .4, CLEO uses.3) +JetSetPar PARJ(33)=0.3 +# +### Parameters below are a new tuning of the continuum +### fragmentation that softens the pion spectrum +### but commented out untill verified to be physically +### sound. ryd 00-02-10 +### Lund symmetric fragmentation function parameter a +##JetSetPar PARJ(41)=.40 +### Lund symmetric fragmentation function parameter b +##JetSetPar PARJ(42)=.29 +### Lund symmetric fragmentation function parameter a +##JetSetPar PARJ(43)=.60 +### Lund symmetric fragmentation function parameter b +##JetSetPar PARJ(44)=.45 +###eps_c from CLEO 8/97 +##JetSetPar PARJ(54)=-.040 +##JetSetPar PARJ(46)=0.0 +##JetSetPar PARJ(33)=0.2 +###End of new continuum tuning +# +Decay vpho +1.000 JSCONT 0; +Enddecay +# +# use new VSS_BMIX mixing decay model (DK,28-Oct-1999) +Decay Upsilon(4S) +0.50000 B+ B- VSS; +0.49913 B0 anti-B0 VSS_BMIX dm; +0.00000 Upsilon(2S) pi+ pi- PHSP; +0.00000 Upsilon(2S) pi0 pi0 PHSP; +# V-> gamma S Partial wave (L,S)=(0,0) +0.00007 gamma chi_b0(3P) HELAMP 1. 0. 1. 0.; +# V-> gamma V Partial wave (L,S)=(0,1) +0.00014 gamma chi_b1(3P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma T Partial wave (L,S)=(0,1) +0.00014 gamma chi_b2(3P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. + 1. 0. 1.7320508 0. 2.4494897 0.; +0.00050 g g g JETSET 4; +0.00002 gamma g g JETSET 4; +Enddecay +# +# +Decay anti-B0 +# b -> c semileptonic +# +0.0560 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ e- anti-nu_e PHOTOS ISGW2; +0.0056 D_1+ e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_1+ e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*+ e- anti-nu_e PHOTOS ISGW2; +0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +# +# b -> c tau nu +# +0.0160 D*+ tau- anti-nu_tau ISGW2; +0.0070 D+ tau- anti-nu_tau ISGW2; +0.0013 D_1+ tau- anti-nu_tau ISGW2; +0.0013 D_0*+ tau- anti-nu_tau ISGW2; +0.0020 D'_1+ tau- anti-nu_tau ISGW2; +0.0020 D_2*+ tau- anti-nu_tau ISGW2; +# +# b -> u l nu +# +# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV. +# with some thresholds to gradually switch from excl. to incl. +# modeling without big jumps keeping the better known excl. +# Brs at their actual values and constrain the incl. Br and +# weights in a way that ~40% of the total BR belongs to +# the mass region > 1.5 GeV +# +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000260 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000165 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000102 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000000 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000616 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +0.000180 pi+ mu- anti-nu_mu PHOTOS ISGW2; +0.000260 rho+ mu- anti-nu_mu PHOTOS ISGW2; +0.000165 a_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000102 b_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_0+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_2+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 rho(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000616 Xu+ mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +# +0.000060 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; +# +# +0.000045 anti-K*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 anti-K_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 anti-K'_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 anti-K'*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 anti-K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 anti-K''*0 gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 anti-Xsd gamma BTOXSGAMMA 2 ; +# +0.00000057 anti-K0 e+ e- PHOTOS BTOSLLBALL; +0.0000023 anti-K*0 e+ e- PHOTOS BTOSLLBALL; +0.000004 anti-Xsd e+ e- PHOTOS BTOXSLL; +0.00000057 anti-K0 mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +0.000004 anti-Xsd mu+ mu- PHOTOS BTOXSLL; +0.00000013 anti-K0 tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 anti-K*0 tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 anti-Xsd tau+ tau- PHOTOS BTOXSLL; +# +# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036 +# +# (pi0pi0 -> 2x10^-6, Jim Olsen - Mar 27, 2001) +0.000004 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000002 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000030 pi- pi+ pi0 BTO3PI_CP dm alpha; + +# not sure what angles are involved here!!!! +0.000005 phi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 phi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000005 phi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 phi rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 phi eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 phi phi SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi omega SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.0000445 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000445 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.0000025 omega K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000025 omega K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + +0.0000035 K*S eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000035 K*L eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000070 anti-K*0T eta SVS; +0.000001 K*S eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 K*L eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000002 anti-K*0T eta' SVS; +0.000001 K*S omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*L omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 anti-K*0T omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega rho0 SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +# +#0.00000108 K- pi+ pi0 BTOKPIPI_CP dm alpha beta; +# +#2-body modes from Jim Olsen +# (K_S0pi0 and K_L0pi0 -> 4x10^-6, Jim Olsen - Mar 27, 2001) +0.000017 K- pi+ PHSP; +0.000003 K+ K- PHSP; +0.000004 K_S0 K_S0 PHSP; +0.000008 K_S0 K_L0 PHSP; +0.000004 K_L0 K_L0 PHSP; +0.000004 K_S0 pi0 PHSP; +0.000004 K_L0 pi0 PHSP; +#3,4-body modes from Jim Smith +0.000001 rho0 anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000030 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_1+ pi- SVS; +0.000010 a_1- pi+ SVS; +# +0.000002 anti-K*0 pi0 SVS; +0.000005 K*- pi+ SVS; +0.000001 rho+ K- SVS; +0.000001 rho0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 anti-K*0 K_L0 SVS; +0.000001 anti-K*0 K_S0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see BTO3PI_CP above) +0.000000 rho0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000000 rho+ pi- PHSP; +0.000000 rho- pi+ PHSP; +# +# B -> cc= s +# +# Charmonium states - updated from Lange's recommendations (august 23,2000) +# Based on new BABAR results I'm making the following changes (Lange, March 13, 2001 +# J/psi K0 was 10, now 9 x 10^-4 +# J/psi pi0 was 2.5, now 2.0 x 10^-4 +# J/psi Kstar was 15, now 13 +# Fix chic1 KS CP eigenstate +# adding J/psi rho and omega - for lack of better thing will use the Kstar helicity amplitudes. +# Psi2sKs 30 ->31 +# chic1 Kstar: 12 ->6 +0.00045 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00045 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.000217 J/psi K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.000217 J/psi K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; +0.000866 J/psi anti-K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.000020 J/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.000030 J/psi rho0 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.000030 J/psi omega SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; + +0.0002 J/psi K- pi+ PHSP; +0.0001 J/psi anti-K0 pi0 PHSP; +#rl0.0007 J/psi anti-K0 pi+ pi- PHSP; +#rl0.00035 J/psi anti-K0 pi0 pi0 PHSP; +#rl0.00035 J/psi K- pi+ pi0 PHSP; +0.0015 J/psi anti-K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.0001 J/psi anti-K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.0005 J/psi anti-K_2*0 PHSP; +0.00009 J/psi phi anti-K0 PHSP; +# +0.00031 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00031 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00015 psi(2S) K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.00015 psi(2S) K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; +0.0006 psi(2S) anti-K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; + +0.0004 psi(2S) K- pi+ PHSP; +0.0002 psi(2S) anti-K0 pi0 PHSP; +0.0002 psi(2S) anti-K0 pi+ pi- PHSP; +0.0001 psi(2S) anti-K0 pi0 pi0 PHSP; +0.0001 psi(2S) K- pi+ pi0 PHSP; +0.0004 psi(2S) anti-K_10 PHSP; + +# +0.0004 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0004 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0003 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0003 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0006 anti-K*0T eta_c SVS; +0.0002 eta_c K- pi+ PHSP; +0.0001 eta_c anti-K0 pi0 PHSP; +0.0002 eta_c anti-K0 pi+ pi- PHSP; +0.0001 eta_c anti-K0 pi0 pi0 PHSP; +0.0001 eta_c K- pi+ pi0 PHSP; +# +0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 anti-K*0T chi_c0 SVS; +0.0002 chi_c0 K- pi+ PHSP; +0.0001 chi_c0 anti-K0 pi0 PHSP; +0.0002 chi_c0 anti-K0 pi+ pi- PHSP; +0.0001 chi_c0 anti-K0 pi0 pi0 PHSP; +0.0001 chi_c0 K- pi+ pi0 PHSP; +# +0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 K*S chi_c1 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.0001 K*L chi_c1 SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; +0.0004 chi_c1 anti-K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0004 chi_c1 K- pi+ PHSP; +0.0002 chi_c1 anti-K0 pi0 PHSP; +0.0004 chi_c1 anti-K0 pi+ pi- PHSP; +0.0002 chi_c1 anti-K0 pi0 pi0 PHSP; +0.0002 chi_c1 K- pi+ pi0 PHSP; +# +0.0001 chi_c2 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 chi_c2 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.000075 K*S chi_c2 PHSP; +0.000075 K*L chi_c2 PHSP; +0.0003 chi_c2 anti-K*0T PHSP; +0.0002 chi_c2 K- pi+ PHSP; +0.0001 chi_c2 anti-K0 pi0 PHSP; +0.0002 chi_c2 anti-K0 pi+ pi- PHSP; +0.0001 chi_c2 anti-K0 pi0 pi0 PHSP; +0.0001 chi_c2 K- pi+ pi0 PHSP; +# +# b-> c (dc=) +# +0.00027 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.000 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.000 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +#0.00030 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +#0.00030 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.001 D*+ D*- SVV_CP beta dm -1 0.62 0.0 1.05 0.0 0.25 0.0; +# +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D+ D_s- PHSP; +0.0106 D*+ D_s- SVS; +0.0074 D_s*- D+ SVS; +0.0141 D*+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1+ D_s- SVS; +0.0020 D'_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1+ D_s- SVS; +0.0040 D_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*+ D_s- STS; +0.0140 D_2*+ D_s*- PHSP; +# +0.0030 D_s- D+ pi0 PHSP; +0.0060 D_s- D0 pi+ PHSP; +0.0030 D_s*- D+ pi0 PHSP; +0.0060 D_s*- D0 pi+ PHSP; +0.0050 D_s- D+ pi+ pi- PHSP; +0.0037 D_s- D+ pi0 pi0 PHSP; +0.0037 D_s- D0 pi+ pi0 PHSP; +0.0050 D_s*- D+ pi+ pi- PHSP; +0.0037 D_s*- D+ pi0 pi0 PHSP; +0.0037 D_s*- D0 pi+ pi0 PHSP; +# +# b -> c (sc=) --> D D= K X Sum = 8% +# +0.0025 D+ anti-D0 K- PHSP; +0.0025 D+ D- anti-K0 PHSP; +0.0025 D+ anti-D0 K*- PHSP; +0.0025 D+ D- anti-K*0 PHSP; +# +0.0050 D*+ anti-D0 K- PHSP; +0.0050 D*+ D- anti-K0 PHSP; +0.0050 D+ anti-D*0 K- PHSP; +0.0050 D+ D*- anti-K0 PHSP; +# +0.0025 D*+ anti-D0 K*- PHSP; +0.0025 D*+ D- anti-K*0 PHSP; +0.0025 D+ anti-D*0 K*- PHSP; +0.0025 D+ D*- anti-K*0 PHSP; +# +0.0150 D*+ anti-D*0 K- PHSP; +0.0150 D*+ D*- anti-K0 PHSP; +0.0050 D*+ anti-D*0 K*- PHSP; +0.0050 D*+ D*- anti-K*0 PHSP; +#Add color suppressed modes as recommended by Jean-Pierre Lees +#Lange September 5, 2000 +0.0005 D0 anti-D0 anti-K0 PHSP; +0.0005 D0 anti-D0 anti-K*0 PHSP; +0.0010 D0 anti-D*0 anti-K0 PHSP; +0.0005 D0 anti-D*0 anti-K*0 PHSP; +0.0010 D*0 anti-D0 anti-K0 PHSP; +0.0005 D*0 anti-D0 anti-K*0 PHSP; +0.0030 D*0 anti-D*0 anti-K0 PHSP; +0.0010 D*0 anti-D*0 anti-K*0 PHSP; + + +# +# +# B -> D(*) X Exclusive modes +# +0.0027 D*+ pi- SVS; +0.0030 D+ pi- PHSP; +0.0082 rho- D+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- D*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 D+ pi- pi0 PHSP; +0.0070 D*+ pi- pi0 PHSP; +0.0010 D0 pi+ pi- PHSP; +0.0010 D*0 pi+ pi- PHSP; +0.0005 D*0 pi0 pi0 PHSP; +# +0.0060 a_1- D+ SVS; +0.0011 D+ rho0 pi- PHSP; +0.0011 D+ rho- pi0 PHSP; +0.0022 D+ pi+ pi- pi- PHSP; +0.0010 D+ pi0 pi- pi0 PHSP; +0.0010 D0 pi+ pi- pi0 PHSP; +0.0001 D0 pi0 pi0 pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 D*+ a_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 D*+ rho0 pi- PHSP; +0.0010 D*+ rho- pi0 PHSP; +0.0000 D*+ pi+ pi- pi- PHSP; +0.0010 D*+ pi0 pi- pi0 PHSP; +0.0010 D*0 pi+ pi- pi0 PHSP; +0.0001 D*0 pi0 pi0 pi0 PHSP; +# +# B->D** pi and D** rho, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html +# +0.0006 D_1+ pi- SVS; +0.0009 D'_1+ pi- SVS; +0.0009 D_2*+ pi- STS; +0.0004 D_1+ rho- PHSP; +0.0013 D'_1+ rho- PHSP; +0.0022 D_2*+ rho- PHSP; +# +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# +0.00017 D*+ K- SVS; +0.00020 D+ K- PHSP; +0.00044 D*+ K*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +0.00051 K*- D+ SVS; +# +# +# Color-suppressed modes. Br's are expectations from +# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set +# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-, +# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html: +# +0.00007 D0 pi0 PHSP; +0.00010 D*0 pi0 SVS; +# +0.00007 rho0 D0 SVS; +0.00017 D*0 rho0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# +0.00005 D0 eta PHSP; +0.00006 D*0 eta SVS; +# +0.00005 D0 eta' PHSP; +0.00006 D*0 eta' SVS; +# +0.00007 omega D0 SVS; +0.00017 D*0 omega SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# +# +# Lam_c X / Sigma_c X 6.0 % +# +0.01000 cd_0 anti-ud_0 JETSET 23; +0.03000 cd_1 anti-ud_1 JETSET 23; +# +# Xi_c X 2.5% +# +0.00600 cs_0 anti-ud_0 JETSET 23; +0.01800 cs_1 anti-ud_1 JETSET 23; +# +# +0.255658 anti-u d c anti-d JETSET 48; +0.04600 anti-u d c anti-d JETSET 25; +0.02100 anti-u s c anti-d JETSET 23; +0.01800 anti-u c d anti-d JETSET 48; +0.00090 anti-u c s anti-d JETSET 48; +#lange - try to crank up the psi production.... +0.03400 anti-c s c anti-d JETSET 13; +0.00600 anti-c d c anti-d JETSET 13; +0.00600 anti-u d u anti-d JETSET 48; +0.00400 anti-c s u anti-d JETSET 48; +#new recommendations from Aaron Roodman +0.00410 anti-u u d anti-d JETSET 48; +0.00070 anti-d d d anti-d JETSET 48; +0.00090 anti-s s d anti-d JETSET 48; +0.00220 anti-u u s anti-d JETSET 48; +0.00180 anti-d d s anti-d JETSET 48; +0.00150 anti-s s s anti-d JETSET 48; +0.00500 s g anti-d JETSET 33; +Enddecay +# +# +Decay B0 +# b -> c semileptonic +# =10.4% total non-D and D* = 3.4% (changing to 2.7) +0.0560 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- e+ nu_e PHOTOS ISGW2; +0.0056 D_1- e+ nu_e PHOTOS ISGW2; +0.0020 D_0*- e+ nu_e PHOTOS ISGW2; +0.0037 D'_1- e+ nu_e PHOTOS ISGW2; +0.0037 D_2*- e+ nu_e PHOTOS ISGW2; +0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- mu+ nu_mu PHOTOS ISGW2; +0.0056 D_1- mu+ nu_mu PHOTOS ISGW2; +0.0020 D_0*- mu+ nu_mu PHOTOS ISGW2; +0.0037 D'_1- mu+ nu_mu PHOTOS ISGW2; +0.0037 D_2*- mu+ nu_mu PHOTOS ISGW2; +0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +# +# b -> c tau nu +# +0.0160 D*- tau+ nu_tau ISGW2; +0.0070 D- tau+ nu_tau ISGW2; +0.0013 D_1- tau+ nu_tau ISGW2; +0.0013 D_0*- tau+ nu_tau ISGW2; +0.0020 D'_1- tau+ nu_tau ISGW2; +0.0020 D_2*- tau+ nu_tau ISGW2; +# +# b -> u l nu +# +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000260 rho- e+ nu_e PHOTOS ISGW2; +0.000165 a_1- e+ nu_e PHOTOS ISGW2; +0.000102 b_1- e+ nu_e PHOTOS ISGW2; +0.000014 a_0- e+ nu_e PHOTOS ISGW2; +0.000014 a_2- e+ nu_e PHOTOS ISGW2; +0.000000 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2; +0.000616 Xu- e+ nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +0.000180 pi- mu+ nu_mu PHOTOS ISGW2; +0.000260 rho- mu+ nu_mu PHOTOS ISGW2; +0.000165 a_1- mu+ nu_mu PHOTOS ISGW2; +0.000102 b_1- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_0- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_2- mu+ nu_mu PHOTOS ISGW2; +0.000000 rho(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000616 Xu- mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +# +# +0.000060 pi- tau+ nu_tau ISGW2; +0.000083 rho- tau+ nu_tau ISGW2; +0.000090 a_1- tau+ nu_tau ISGW2; +0.000008 b_1- tau+ nu_tau ISGW2; +0.000008 a_0- tau+ nu_tau ISGW2; +0.000008 a_2- tau+ nu_tau ISGW2; +0.000000 rho(2S)- tau+ nu_tau ISGW2; +0.000000 D(2S)- tau+ nu_tau ISGW2; +0.000000 D*(2S)- tau+ nu_tau ISGW2; +# +# +0.000045 K*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 K_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 K'_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 K'*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 K''*0 gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 Xsd gamma BTOXSGAMMA 2 ; +# +0.00000057 K0 e+ e- PHOTOS BTOSLLBALL; +0.0000023 K*0 e+ e- PHOTOS BTOSLLBALL; +0.000004 Xsd e+ e- PHOTOS BTOXSLL; +0.00000057 K0 mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 K*0 mu+ mu- PHOTOS BTOSLLBALL; +0.000004 Xsd mu+ mu- PHOTOS BTOXSLL; +0.00000013 K0 tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 K*0 tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 Xsd tau+ tau- PHOTOS BTOXSLL; +# +# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036 +# (pi0pi0 -> 2x10^-6, Jim Olsen - Mar 27, 2001) +# +0.000004 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000002 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000030 pi- pi+ pi0 BTO3PI_CP dm alpha; +#0.00000108 K+ pi- pi0 BTOKPIPI_CP dm alpha beta; +# +0.000005 phi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 phi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000005 phi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 phi rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 phi eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 phi phi SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi omega SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.0000445 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000445 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.0000025 omega K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000025 omega K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + +0.0000035 K*S eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000035 K*L eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.0000070 K*0T eta SVS; +0.000001 K*S eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 K*L eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000002 K*0T eta' SVS; +0.000001 K*S omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*L omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 K*0T omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega rho0 SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +# +#2-body modes from Jim Olsen +# (K_S0 pi0 and K_L0 pi0 -> 4x10^-6, Jim Olsen - Mar 27, 2001) +0.000017 K+ pi- PHSP; +0.000003 K+ K- PHSP; +0.000004 K_S0 K_S0 PHSP; +0.000008 K_S0 K_L0 PHSP; +0.000004 K_L0 K_L0 PHSP; +0.000004 K_S0 pi0 PHSP; +0.000004 K_L0 pi0 PHSP; +#3,4-body modes from Jim Smith +0.000001 rho0 K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000030 rho+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_1+ pi- SVS; +0.000010 a_1- pi+ SVS; +# +0.000002 K*0 pi0 SVS; +0.000005 K*+ pi- SVS; +0.000001 rho- K+ SVS; +0.000001 rho0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 K*0 K_S0 SVS; +0.000001 K*0 K_L0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see BTO3PI_CP above) +0.000000 rho0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000000 rho+ pi- PHSP; +0.000000 rho- pi+ PHSP; +# B -> cc= s +0.00045 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00045 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.000217 J/psi K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.000217 J/psi K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; +0.000866 J/psi K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.00002 J/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00003 J/psi rho0 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.00003 J/psi omega SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.0002 J/psi K+ pi- PHSP; +0.0001 J/psi K0 pi0 PHSP; +#rl0.0007 J/psi K0 pi- pi+ PHSP; +#rl0.00035 J/psi K0 pi0 pi0 PHSP; +#rl0.00035 J/psi K+ pi- pi0 PHSP; +0.0015 J/psi K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.0001 J/psi K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.0005 J/psi K_2*0 PHSP; +0.00009 J/psi phi K0 PHSP; +# +0.00031 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00031 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00015 psi(2S) K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.00015 psi(2S) K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; +0.0006 psi(2S) K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; + +0.0004 psi(2S) K+ pi- PHSP; +0.0002 psi(2S) K0 pi0 PHSP; +0.0002 psi(2S) K0 pi- pi+ PHSP; +0.0001 psi(2S) K0 pi0 pi0 PHSP; +0.0001 psi(2S) K+ pi- pi0 PHSP; +0.0004 psi(2S) K_10 PHSP; +# +0.0004 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0004 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0003 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0003 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0006 K*0T eta_c SVS; +0.0002 eta_c K+ pi- PHSP; +0.0001 eta_c K0 pi0 PHSP; +0.0002 eta_c K0 pi- pi+ PHSP; +0.0001 eta_c K0 pi0 pi0 PHSP; +0.0001 eta_c K+ pi- pi0 PHSP; +# +0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 K*0T chi_c0 SVS; +0.0002 chi_c0 K+ pi- PHSP; +0.0001 chi_c0 K0 pi0 PHSP; +0.0002 chi_c0 K0 pi- pi+ PHSP; +0.0001 chi_c0 K0 pi0 pi0 PHSP; +0.0001 chi_c0 K+ pi- pi0 PHSP; +# +0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 K*S chi_c1 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; +0.0001 K*L chi_c1 SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; +0.0004 chi_c1 K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0004 chi_c1 K+ pi- PHSP; +0.0002 chi_c1 K0 pi0 PHSP; +0.0004 chi_c1 K0 pi- pi+ PHSP; +0.0002 chi_c1 K0 pi0 pi0 PHSP; +0.0002 chi_c1 K+ pi- pi0 PHSP; +# +0.0001 chi_c2 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 chi_c2 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.000075 K*S chi_c2 PHSP; +0.000075 K*L chi_c2 PHSP; +0.0003 chi_c2 K*0T PHSP; +0.0002 chi_c2 K+ pi- PHSP; +0.0001 chi_c2 K0 pi0 PHSP; +0.0002 chi_c2 K0 pi- pi+ PHSP; +0.0001 chi_c2 K0 pi0 pi0 PHSP; +0.0001 chi_c2 K+ pi- pi0 PHSP; +# +0.0000 phi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*S SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*L SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0000 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +# +# b-> c (dc=) +# +0.00027 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.000 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.000 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +#0.00030 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +#0.00030 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.001 D*+ D*- SVV_CP beta dm 1 0.62 0.0 1.05 0.0 0.25 0.0; +# +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D- D_s+ PHSP; +0.0106 D*- D_s+ SVS; +0.0074 D_s*+ D- SVS; +0.0141 D_s*+ D*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1- D_s+ SVS; +0.0020 D'_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1- D_s+ SVS; +0.0040 D_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*- D_s+ STS; +0.0140 D_2*- D_s*+ PHSP; +# +0.0030 D_s+ D- pi0 PHSP; +0.0060 D_s+ anti-D0 pi- PHSP; +0.0030 D_s*+ D- pi0 PHSP; +0.0060 D_s*+ anti-D0 pi- PHSP; +0.0050 D_s+ D- pi- pi+ PHSP; +0.0037 D_s+ D- pi0 pi0 PHSP; +0.0037 D_s+ anti-D0 pi- pi0 PHSP; +0.0050 D_s*+ D- pi- pi+ PHSP; +0.0037 D_s*+ D- pi0 pi0 PHSP; +0.0037 D_s*+ anti-D0 pi- pi0 PHSP; +# +# b -> c (sc=) --> D D= K X Sum = 8% +# +0.0025 D- D0 K+ PHSP; +0.0025 D- D+ K0 PHSP; +0.0025 D- D0 K*+ PHSP; +0.0025 D- D+ K*0 PHSP; +# +0.0050 D*- D0 K+ PHSP; +0.0050 D*- D+ K0 PHSP; +0.0050 D- D*0 K+ PHSP; +0.0050 D- D*+ K0 PHSP; +# +0.0025 D*- D0 K*+ PHSP; +0.0025 D*- D+ K*0 PHSP; +0.0025 D- D*0 K*+ PHSP; +0.0025 D- D*+ K*0 PHSP; +# +0.0150 D*- D*0 K+ PHSP; +0.0150 D*- D*+ K0 PHSP; +0.0050 D*- D*0 K*+ PHSP; +0.0050 D*- D*+ K*0 PHSP; +#Add color suppressed modes as recommended by Jean-Pierre Lees +#Lange September 5, 2000 +0.0005 D0 anti-D0 K0 PHSP; +0.0005 D0 anti-D0 K*0 PHSP; +0.0010 D0 anti-D*0 K0 PHSP; +0.0005 D0 anti-D*0 K*0 PHSP; +0.0010 D*0 anti-D0 K0 PHSP; +0.0005 D*0 anti-D0 K*0 PHSP; +0.0030 D*0 anti-D*0 K0 PHSP; +0.0010 D*0 anti-D*0 K*0 PHSP; +# +# +# B -> D(*) X Exclusive modes +# +0.0027 D*- pi+ SVS; +0.0030 D- pi+ PHSP; +0.0082 rho+ D- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ D*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 D- pi+ pi0 PHSP; +0.0070 D*- pi+ pi0 PHSP; +0.0010 anti-D0 pi- pi+ PHSP; +0.0010 anti-D*0 pi- pi+ PHSP; +0.0005 anti-D*0 pi0 pi0 PHSP; +# +0.0060 a_1+ D- SVS; +0.0011 D- rho0 pi+ PHSP; +0.0011 D- rho+ pi0 PHSP; +0.0022 D- pi- pi+ pi+ PHSP; +0.0010 D- pi0 pi+ pi0 PHSP; +0.0010 anti-D0 pi- pi+ pi0 PHSP; +0.0001 anti-D0 pi0 pi0 pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 D*- a_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 D*- rho0 pi+ PHSP; +0.0010 D*- rho+ pi0 PHSP; +0.0000 D*- pi- pi+ pi+ PHSP; +0.0010 D*- pi0 pi+ pi0 PHSP; +0.0010 anti-D*0 pi- pi+ pi0 PHSP; +0.0001 anti-D*0 pi0 pi0 pi0 PHSP; +# +# B->D** pi and D** rho, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html +# +0.0006 D_1- pi+ SVS; +0.0009 D'_1- pi+ SVS; +0.0009 D_2*- pi+ STS; +0.0004 D_1- rho+ PHSP; +0.0013 D'_1- rho+ PHSP; +0.0022 D_2*- rho+ PHSP; +# +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# +0.00017 D*- K+ SVS; +0.00020 D- K+ PHSP; +0.00044 D*- K*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +0.00051 K*+ D- SVS; +# +# +# Color-suppressed modes. Br's are expectations from +# Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set +# equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-, +# with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html: +# +0.00007 anti-D0 pi0 PHSP; +0.00010 anti-D*0 pi0 SVS; +# +0.00007 rho0 anti-D0 SVS; +0.00017 anti-D*0 rho0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# +0.00005 anti-D0 eta PHSP; +0.00006 anti-D*0 eta SVS; +# +0.00005 anti-D0 eta' PHSP; +0.00006 anti-D*0 eta' SVS; +# +0.00007 omega anti-D0 SVS; +0.00017 anti-D*0 omega SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# +# +# Lam_c X / Sigma_c X 4.0 % +# +0.01000 anti-cd_0 ud_0 JETSET 23; +0.03000 anti-cd_1 ud_1 JETSET 23; +# +# Xi_c X 2.5% +# +0.00600 anti-cs_0 ud_0 JETSET 23; +0.01800 anti-cs_1 ud_1 JETSET 23; +# +# +0.255658 u anti-d anti-c d JETSET 48; +0.04600 u anti-d anti-c d JETSET 25; +0.02100 u anti-s anti-c d JETSET 23; +0.01800 u anti-c anti-d d JETSET 48; +0.00090 u anti-c anti-s d JETSET 48; +#lange - try to crank up the psi production.... +0.03400 c anti-s anti-c d JETSET 13; +0.00600 c anti-d anti-c d JETSET 13; +0.00600 u anti-d anti-u d JETSET 48; +0.00400 c anti-s anti-u d JETSET 48; +#new recommendations from Aaron Roodman +0.00410 u anti-u anti-d d JETSET 48; +0.00070 d anti-d anti-d d JETSET 48; +0.00090 s anti-s anti-d d JETSET 48; +0.00220 u anti-u anti-s d JETSET 48; +0.00180 d anti-d anti-s d JETSET 48; +0.00150 s anti-s anti-s d JETSET 48; +0.00500 anti-s g d JETSET 33; +Enddecay +# +# +# +Decay B- +# +# b -> c semileptonic +# +0.0560 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0056 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +# +0.0560 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +# +# b -> c tau nu +# +0.0160 D*0 tau- anti-nu_tau ISGW2; +0.0070 D0 tau- anti-nu_tau ISGW2; +0.0013 D_10 tau- anti-nu_tau ISGW2; +0.0013 D_0*0 tau- anti-nu_tau ISGW2; +0.0020 D'_10 tau- anti-nu_tau ISGW2; +0.0020 D_2*0 tau- anti-nu_tau ISGW2; +# +# b -> u l nu +# +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000030 eta e- anti-nu_e PHOTOS ISGW2; +0.000130 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000130 omega e- anti-nu_e PHOTOS ISGW2; +0.000060 eta' e- anti-nu_e PHOTOS ISGW2; +0.000082 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000048 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000041 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000041 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000616 Xu0 e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000090 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000030 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000130 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000130 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000060 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000082 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_20 mu- anti-nu_mu PHOTOS ISGW2; +0.000048 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000616 Xu0 mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000030 pi0 tau- anti-nu_tau ISGW2; +0.000012 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000018 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; +# +# b -> l nu +# +0.000050 tau- anti-nu_tau SLN; +0.000000 mu- anti-nu_mu PHOTOS SLN; +0.000000 e- anti-nu_e PHOTOS SLN; +# +# +0.000045 K*- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 K_1- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 K'_1- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 K'*- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 K_2*- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 K''*- gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 anti-Xsu gamma BTOXSGAMMA 2 ; +# +0.00000057 K- e+ e- PHOTOS BTOSLLBALL; +0.0000023 K*- e+ e- PHOTOS BTOSLLBALL; +0.000004 anti-Xsu e+ e- PHOTOS BTOXSLL; +0.00000057 K- mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 K*- mu+ mu- PHOTOS BTOSLLBALL; +0.000004 anti-Xsu mu+ mu- PHOTOS BTOXSLL; +0.00000013 K- tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 K*- tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 anti-Xsu tau+ tau- PHOTOS BTOXSLL; +# +# Exclusive hadronic b->u +# +0.000026 pi- pi0 pi0 CB3PI-P00 alpha; +0.000011 pi- pi- pi+ CB3PI-MPP alpha; +# +# B -> cc= s sum = 1.92% +# +0.0009 J/psi K- SVS; +0.0013 J/psi K*- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.00004 J/psi pi- SVS; +0.00006 J/psi rho- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0002 J/psi anti-K0 pi- PHSP; +0.0001 J/psi K- pi0 PHSP; +#rl0.0007 J/psi K- pi+ pi- PHSP; +#rl0.00035 J/psi K- pi0 pi0 PHSP; +#rl0.00035 J/psi anti-K0 pi- pi0 PHSP; +0.0001 J/psi K'_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.0005 J/psi K_2*- PHSP; +0.0015 J/psi K_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.00009 J/psi phi K- PHSP; +# +0.00062 psi(2S) K- SVS; +0.0009 psi(2S) K*- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0004 psi(2S) anti-K0 pi- PHSP; +0.0002 psi(2S) K- pi0 PHSP; +0.0002 psi(2S) K- pi+ pi- PHSP; +0.0001 psi(2S) K- pi0 pi0 PHSP; +0.0001 psi(2S) anti-K0 pi- pi0 PHSP; +0.0004 psi(2S) K_1- PHSP; +# +0.0008 eta_c K- PHSP; +0.0012 K*- eta_c SVS; +0.0002 eta_c anti-K0 pi- PHSP; +0.0001 eta_c K- pi0 PHSP; +0.0002 eta_c K- pi+ pi- PHSP; +0.0001 eta_c K- pi0 pi0 PHSP; +0.0001 eta_c anti-K0 pi- pi0 PHSP; +# +0.0002 chi_c0 K- PHSP; +0.0003 K*- chi_c0 SVS; +0.0002 chi_c0 anti-K0 pi- PHSP; +0.0001 chi_c0 K- pi0 PHSP; +0.0002 chi_c0 K- pi+ pi- PHSP; +0.0001 chi_c0 K- pi0 pi0 PHSP; +0.0001 chi_c0 anti-K0 pi- pi0 PHSP; +# +0.0006 chi_c1 K- SVS; +0.0006 chi_c1 K*- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0004 chi_c1 anti-K0 pi- PHSP; +0.0002 chi_c1 K- pi0 PHSP; +0.0004 chi_c1 K- pi+ pi- PHSP; +0.0002 chi_c1 K- pi0 pi0 PHSP; +0.0002 chi_c1 anti-K0 pi- pi0 PHSP; +# +0.0002 chi_c2 K- STS; +0.0004 chi_c2 K*- PHSP; +0.0002 chi_c2 anti-K0 pi- PHSP; +0.0001 chi_c2 K- pi0 PHSP; +0.0002 chi_c2 K- pi+ pi- PHSP; +0.0001 chi_c2 K- pi0 pi0 PHSP; +0.0001 chi_c2 anti-K0 pi- pi0 PHSP; +# +# b -> c (sc=) -> D Ds X Sum = 10% +# +0.0106 D0 D_s- PHSP; +0.0102 D*0 D_s- SVS; +0.0091 D_s*- D0 SVS; +0.0228 D_s*- D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_10 D_s- SVS; +0.0020 D'_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_10 D_s- SVS; +0.0040 D_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*0 D_s- STS; +0.0140 D_2*0 D_s*- PHSP; +# +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +# +0.0060 D_s- D+ pi- PHSP; +0.0030 D_s- D0 pi0 PHSP; +0.0060 D_s*- D+ pi- PHSP; +0.0030 D_s*- D0 pi0 PHSP; +0.0055 D_s- D+ pi- pi0 PHSP; +0.0055 D_s- D0 pi- pi+ PHSP; +0.0014 D_s- D0 pi0 pi0 PHSP; +0.0055 D_s*- D+ pi- pi0 PHSP; +0.0055 D_s*- D0 pi- pi+ PHSP; +0.0014 D_s*- D0 pi0 pi0 PHSP; +# +# b -> c (sc=) -> D D= K X Sum = 8% +# +0.0025 D0 anti-D0 K- PHSP; +0.0025 D0 D- anti-K0 PHSP; +0.0025 D0 anti-D0 K*- PHSP; +0.0025 D0 D- anti-K*0 PHSP; +# +0.0050 D*0 anti-D0 K- PHSP; +0.0050 D*0 D- anti-K0 PHSP; +0.0050 D0 anti-D*0 K- PHSP; +0.0050 D0 D*- anti-K0 PHSP; +# +0.0025 D*0 anti-D0 K*- PHSP; +0.0025 D*0 D- anti-K*0 PHSP; +0.0025 D0 anti-D*0 K*- PHSP; +0.0025 D0 D*- anti-K*0 PHSP; +# +0.0150 D*0 anti-D*0 K- PHSP; +0.0150 D*0 D*- anti-K0 PHSP; +0.0050 D*0 anti-D*0 K*- PHSP; +0.0050 D*0 D*- anti-K*0 PHSP; +#Add color suppressed modes as recommended by Jean-Pierre Lees +#Lange September 5, 2000 +0.0005 D+ D- K- PHSP; +0.0005 D+ D- K*- PHSP; +0.0010 D*+ D- K- PHSP; +0.0005 D*+ D- K*- PHSP; +0.0010 D+ D*- K- PHSP; +0.0005 D+ D*- K*- PHSP; +0.0030 D*+ D*- K- PHSP; +0.0010 D*+ D*- K*- PHSP; + + +# +# B -> D(*) X Exclusive Modes +# +0.0046 D*0 pi- SVS; +0.0053 D0 pi- PHSP; +0.0134 rho- D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 D*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 D0 pi0 pi- PHSP; +0.0005 D*0 pi0 pi- PHSP; +0.0005 D+ pi- pi- PHSP; +0.0021 D*+ pi- pi- PHSP; +# +0.0050 a_1- D0 SVS; +0.0021 D0 rho0 pi- PHSP; +0.0050 D0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 D*0 a_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 D*0 rho0 pi- PHSP; +0.0005 D*0 pi+ pi- pi- PHSP; +# +0.0020 D+ rho- pi- PHSP; +0.0020 D+ pi0 pi- pi- PHSP; +0.0020 D*+ rho- pi- PHSP; +0.0150 D*+ pi0 pi- pi- PHSP; +0.0005 D*0 rho- pi0 PHSP; +0.0005 D*0 pi- pi0 pi0 PHSP; +# +# B->D** pi and D** rho, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html +# +0.0010 D_10 pi- SVS; +0.0016 D'_10 pi- SVS; +0.0015 D_2*0 pi- STS; +0.0007 D_10 rho- PHSP; +0.0022 D'_10 rho- PHSP; +0.0038 D_2*0 rho- PHSP; +# +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# +0.00035 D0 K- PHSP; +0.00062 D*0 K- SVS; +0.00087 K*- D0 SVS; +0.00100 D*0 K*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# +# +# Lam_c X / Sigma_c X 4.0 % +# +0.04000 cd_1 anti-uu_1 JETSET 23; +# +# Xi_c X 2.5% +# +0.02400 cs_1 anti-uu_1 JETSET 23; +# +# +0.225798 anti-u d c anti-u JETSET 48; +0.04300 anti-u d c anti-u JETSET 25; +0.02250 anti-u s c anti-u JETSET 23; +#lange - try to crank up the psi production.... +0.03400 anti-c s c anti-u JETSET 13; +0.00400 anti-c d c anti-u JETSET 13; +0.00600 anti-u d u anti-u JETSET 48; +0.00400 anti-c s u anti-u JETSET 48; +#new recommendations from Aaron Roodman +0.00410 anti-u u d anti-u JETSET 48; +0.00070 anti-d d d anti-u JETSET 48; +0.00090 anti-s s d anti-u JETSET 48; +0.00220 anti-u u s anti-u JETSET 48; +0.00180 anti-d d s anti-u JETSET 48; +0.00150 anti-s s s anti-u JETSET 48; +0.00500 s g anti-u JETSET 33; +# +#### +#### +0.000005 eta pi- PHSP; +0.000002 eta K- PHSP; +0.0000264 K*- eta SVS; +0.000005 rho- eta SVS; +0.000002 eta' pi- PHSP; +0.000080 eta' K- PHSP; +0.000005 K*- eta' SVS; +0.000005 rho- eta' SVS; +0.0000113 omega pi- SVS; +0.000005 omega K- SVS; +0.000005 omega K*- PHSP; +0.000015 omega rho- PHSP; +0.000001 phi pi- SVS; +0.000010 phi K- SVS; +0.000010 K*- phi PHSP; +0.000001 phi rho- PHSP; +#2-body modes from Jim Olsen +# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001) +# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001) +0.000009 K_S0 pi- PHSP; +0.000009 K_L0 pi- PHSP; +0.000001 K_S0 K- PHSP; +0.000001 K_L0 K- PHSP; +0.000005 pi- pi0 PHSP; +0.000011 K- pi0 PHSP; +#3,4-body modes from Jim Smith +0.000010 rho- anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 rho- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*- K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_10 pi- SVS; +0.000010 a_1- pi0 SVS; +0.000005 anti-K*0 pi- SVS; +0.000005 K*- pi0 SVS; +0.000001 rho0 K- SVS; +0.000001 rho- K_S0 SVS; +0.000001 rho- K_L0 SVS; +0.000001 K*0 K- SVS; +0.000001 K*- K_S0 SVS; +0.000001 K*- K_L0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see CB3PI above) +0.000000 rho- pi0 SVS; +0.000000 rho0 pi- SVS; +Enddecay +# +Decay B+ +# +# b -> c semileptonic +0.0560 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0056 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0020 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0056 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0020 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +# +# b -> c tau nu +# +0.0160 anti-D*0 tau+ nu_tau ISGW2; +0.0070 anti-D0 tau+ nu_tau ISGW2; +0.0013 anti-D_10 tau+ nu_tau ISGW2; +0.0013 anti-D_0*0 tau+ nu_tau ISGW2; +0.0020 anti-D'_10 tau+ nu_tau ISGW2; +0.0020 anti-D_2*0 tau+ nu_tau ISGW2; +# +# b -> u l nu +# +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000030 eta e+ nu_e PHOTOS ISGW2; +0.000130 rho0 e+ nu_e PHOTOS ISGW2; +0.000130 omega e+ nu_e PHOTOS ISGW2; +0.000060 eta' e+ nu_e PHOTOS ISGW2; +0.000082 a_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_20 e+ nu_e PHOTOS ISGW2; +0.000048 b_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_00 e+ nu_e PHOTOS ISGW2; +0.000004 f_0 e+ nu_e PHOTOS ISGW2; +0.000004 f'_0 e+ nu_e PHOTOS ISGW2; +0.000041 f_1 e+ nu_e PHOTOS ISGW2; +0.000041 f'_1 e+ nu_e PHOTOS ISGW2; +0.000024 h_1 e+ nu_e PHOTOS ISGW2; +0.000024 h'_1 e+ nu_e PHOTOS ISGW2; +0.000004 f_2 e+ nu_e PHOTOS ISGW2; +0.000004 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; +0.000616 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000090 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000030 eta mu+ nu_mu PHOTOS ISGW2; +0.000130 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000130 omega mu+ nu_mu PHOTOS ISGW2; +0.000060 eta' mu+ nu_mu PHOTOS ISGW2; +0.000082 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_20 mu+ nu_mu PHOTOS ISGW2; +0.000048 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000041 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000616 Xu0 mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000030 pi0 tau+ nu_tau ISGW2; +0.000012 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000018 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; +# +# +0.000045 K*+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 K_1+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 K'_1+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 K'*+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 K_2*+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 K''*+ gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 Xsu gamma BTOXSGAMMA 2 ; +# +0.00000057 K+ e+ e- PHOTOS BTOSLLBALL; +0.0000023 K*+ e+ e- PHOTOS BTOSLLBALL; +0.000004 Xsu e+ e- PHOTOS BTOXSLL; +0.00000057 K+ mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 K*+ mu+ mu- PHOTOS BTOSLLBALL; +0.000004 Xsu mu+ mu- PHOTOS BTOXSLL; +0.00000013 K+ tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 K*+ tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 Xsu tau+ tau- PHOTOS BTOXSLL; +# +# b -> l nu +# +0.000050 tau+ nu_tau SLN; +0.000000 mu+ nu_mu PHOTOS SLN; +0.000000 e+ nu_e PHOTOS SLN; +# +# Exclusive hadronic b->u +# +0.000026 pi+ pi0 pi0 CB3PI-P00 alpha; +0.000011 pi+ pi+ pi- CB3PI-MPP alpha; +#### +0.000005 eta pi+ PHSP; +0.000002 eta K+ PHSP; +0.0000264 K*+ eta SVS; +0.000005 rho+ eta SVS; +0.000002 eta' pi+ PHSP; +0.000080 eta' K+ PHSP; +0.000005 K*+ eta' SVS; +0.000005 rho+ eta' SVS; +0.0000113 omega pi+ SVS; +0.000005 omega K+ SVS; +0.000005 omega K*+ PHSP; +0.000015 omega rho+ PHSP; +0.000001 phi pi+ SVS; +0.000010 phi K+ SVS; +0.000010 K*+ phi PHSP; +0.000001 phi rho+ PHSP; +#2-body modes from Jim Olsen +# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001) +# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001) +0.000009 K_S0 pi+ PHSP; +0.000009 K_L0 pi+ PHSP; +0.000001 K_S0 K+ PHSP; +0.000001 K_L0 K+ PHSP; +0.000005 pi+ pi0 PHSP; +0.000011 K+ pi0 PHSP; +#3,4-body modes from Jim Smith +0.000010 rho+ K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 rho+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*+ anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_10 pi+ SVS; +0.000010 a_1+ pi0 SVS; +0.000005 K*0 pi+ SVS; +0.000005 K*+ pi0 SVS; +0.000001 rho0 K+ SVS; +0.000001 rho+ K_S0 SVS; +0.000001 rho+ K_L0 SVS; +0.000001 anti-K*0 K+ SVS; +0.000001 K*+ K_S0 SVS; +0.000001 K*+ K_L0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see CB3PI above) +0.000000 rho+ pi0 SVS; +0.000000 rho0 pi+ SVS; +# +# B -> cc= s sum = 1.92% +# +0.0009 J/psi K+ SVS; +0.0013 J/psi K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.00004 J/psi pi+ SVS; +0.00006 J/psi rho+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0002 J/psi K0 pi+ PHSP; +0.0001 J/psi K+ pi0 PHSP; +#rl0.0007 J/psi K+ pi- pi+ PHSP; +#rl0.00035 J/psi K+ pi0 pi0 PHSP; +#rl0.00035 J/psi K0 pi+ pi0 PHSP; +0.0015 J/psi K_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.0001 J/psi K'_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; +0.0005 J/psi K_2*+ PHSP; +0.00009 J/psi phi K+ PHSP; +# +0.00062 psi(2S) K+ SVS; +0.0009 psi(2S) K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0004 psi(2S) K0 pi+ PHSP; +0.0002 psi(2S) K+ pi0 PHSP; +0.0002 psi(2S) K+ pi- pi+ PHSP; +0.0001 psi(2S) K+ pi0 pi0 PHSP; +0.0001 psi(2S) K0 pi+ pi0 PHSP; +0.0004 psi(2S) K_1+ PHSP; +# +0.0008 eta_c K+ PHSP; +0.0012 K*+ eta_c SVS; +0.0002 eta_c K0 pi+ PHSP; +0.0001 eta_c K+ pi0 PHSP; +0.0002 eta_c K+ pi- pi+ PHSP; +0.0001 eta_c K+ pi0 pi0 PHSP; +0.0001 eta_c K0 pi+ pi0 PHSP; +# +0.0002 chi_c0 K+ PHSP; +0.0003 K*+ chi_c0 SVS; +0.0002 chi_c0 K0 pi+ PHSP; +0.0001 chi_c0 K+ pi0 PHSP; +0.0002 chi_c0 K+ pi- pi+ PHSP; +0.0001 chi_c0 K+ pi0 pi0 PHSP; +0.0001 chi_c0 K0 pi+ pi0 PHSP; +# +0.0006 chi_c1 K+ SVS; +0.0006 chi_c1 K*+ SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; +0.0004 chi_c1 K0 pi+ PHSP; +0.0002 chi_c1 K+ pi0 PHSP; +0.0004 chi_c1 K+ pi- pi+ PHSP; +0.0002 chi_c1 K+ pi0 pi0 PHSP; +0.0002 chi_c1 K0 pi+ pi0 PHSP; +# +0.0002 chi_c2 K+ STS; +0.0004 chi_c2 K*+ PHSP; +0.0002 chi_c2 K0 pi+ PHSP; +0.0001 chi_c2 K+ pi0 PHSP; +0.0002 chi_c2 K+ pi- pi+ PHSP; +0.0001 chi_c2 K+ pi0 pi0 PHSP; +0.0001 chi_c2 K0 pi+ pi0 PHSP; +# +# b -> c (sc=) -> D Ds X Sum = 10% +# +0.0106 anti-D0 D_s+ PHSP; +0.0102 anti-D*0 D_s+ SVS; +0.0091 D_s*+ anti-D0 SVS; +0.0228 D_s*+ anti-D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 anti-D'_10 D_s+ SVS; +0.0020 anti-D'_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 anti-D_10 D_s+ SVS; +0.0040 anti-D_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 anti-D_2*0 D_s+ STS; +0.0140 anti-D_2*0 D_s*+ PHSP; +# +# +0.0060 D_s+ D- pi+ PHSP; +0.0030 D_s+ anti-D0 pi0 PHSP; +0.0060 D_s*+ D- pi+ PHSP; +0.0030 D_s*+ anti-D0 pi0 PHSP; +0.0055 D_s+ D- pi+ pi0 PHSP; +0.0055 D_s+ anti-D0 pi+ pi- PHSP; +0.0014 D_s+ anti-D0 pi0 pi0 PHSP; +0.0055 D_s*+ D- pi+ pi0 PHSP; +0.0055 D_s*+ anti-D0 pi+ pi- PHSP; +0.0014 D_s*+ anti-D0 pi0 pi0 PHSP; +# +# b -> c (sc=) -> D D= K X Sum = 8% +# +0.0025 anti-D0 D0 K+ PHSP; +0.0025 anti-D0 D+ K0 PHSP; +0.0025 anti-D0 D0 K*+ PHSP; +0.0025 anti-D0 D+ K*0 PHSP; +# +0.0050 anti-D*0 D0 K+ PHSP; +0.0050 anti-D*0 D+ K0 PHSP; +0.0050 anti-D0 D*0 K+ PHSP; +0.0050 anti-D0 D*+ K0 PHSP; +# +0.0025 anti-D*0 D0 K*+ PHSP; +0.0025 anti-D*0 D+ K*0 PHSP; +0.0025 anti-D0 D*0 K*+ PHSP; +0.0025 anti-D0 D*+ K*0 PHSP; +# +0.0150 anti-D*0 D*0 K+ PHSP; +0.0150 anti-D*0 D*+ K0 PHSP; +0.0050 anti-D*0 D*0 K*+ PHSP; +0.0050 anti-D*0 D*+ K*0 PHSP; +#Add color suppressed modes as recommended by Jean-Pierre Lees +#Lange September 5, 2000 +0.0005 D+ D- K+ PHSP; +0.0005 D+ D- K*+ PHSP; +0.0010 D*+ D- K+ PHSP; +0.0005 D*+ D- K*+ PHSP; +0.0010 D+ D*- K+ PHSP; +0.0005 D+ D*- K*+ PHSP; +0.0030 D*+ D*- K+ PHSP; +0.0010 D*+ D*- K*+ PHSP; +# +# B -> D(*) X Exclusive Modes +# +0.0046 anti-D*0 pi+ SVS; +0.0053 anti-D0 pi+ PHSP; +0.0134 rho+ anti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 anti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 anti-D0 pi0 pi+ PHSP; +0.0005 anti-D*0 pi0 pi+ PHSP; +0.0005 D- pi+ pi+ PHSP; +0.0021 D*- pi+ pi+ PHSP; +# +0.0050 a_1+ anti-D0 SVS; +0.0021 anti-D0 rho0 pi+ PHSP; +0.0050 anti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 anti-D*0 a_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 anti-D*0 rho0 pi+ PHSP; +0.0005 anti-D*0 pi- pi+ pi+ PHSP; +# +0.0020 D- rho+ pi+ PHSP; +0.0020 D- pi0 pi+ pi+ PHSP; +0.0020 D*- rho+ pi+ PHSP; +0.0150 D*- pi0 pi+ pi+ PHSP; +0.0005 anti-D*0 rho+ pi0 PHSP; +0.0005 anti-D*0 pi+ pi0 pi0 PHSP; +# +# B->D** pi and D** rho, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html +# +0.0010 anti-D_10 pi+ SVS; +0.0016 anti-D'_10 pi+ SVS; +0.0015 anti-D_2*0 pi+ STS; +0.0007 anti-D_10 rho+ PHSP; +0.0022 anti-D'_10 rho+ PHSP; +0.0038 anti-D_2*0 rho+ PHSP; +# +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# +0.00035 anti-D0 K+ PHSP; +0.00062 anti-D*0 K+ SVS; +0.00087 K*+ anti-D0 SVS; +0.00100 anti-D*0 K*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# +# +# Lam_c X / Sigma_c X +# +0.04000 anti-cd_1 uu_1 JETSET 23; +# +# Xi_c X 2.4% +# +0.02400 anti-cs_1 uu_1 JETSET 23; +# +# + +0.225798 u anti-d anti-c u JETSET 48; +0.04300 u anti-d anti-c u JETSET 25; +0.02250 u anti-s anti-c u JETSET 23; +#lange - try to crank up the psi production.... +0.03400 c anti-s anti-c u JETSET 13; +0.00400 c anti-d anti-c u JETSET 13; +0.00600 u anti-d anti-u u JETSET 48; +0.00400 c anti-s anti-u u JETSET 48; +#new recommendations from Aaron Roodman +0.00410 u anti-u anti-d u JETSET 48; +0.00070 d anti-d anti-d u JETSET 48; +0.00090 s anti-s anti-d u JETSET 48; +0.00220 u anti-u anti-s u JETSET 48; +0.00180 d anti-d anti-s u JETSET 48; +0.00150 s anti-s anti-s u JETSET 48; +0.00500 anti-s g u JETSET 33; +#### +Enddecay +# +# +# +# B* mesons +# +Decay B*+ +1.0000 B+ gamma VSP_PWAVE; +Enddecay +Decay B*- +1.0000 B- gamma VSP_PWAVE; +Enddecay +Decay B*0 +1.0000 B0 gamma VSP_PWAVE; +Enddecay +Decay anti-B*0 +1.0000 anti-B0 gamma VSP_PWAVE; +Enddecay +Decay B_s*0 +1.0000 B_s0 gamma VSP_PWAVE; +Enddecay +Decay anti-B_s*0 +1.0000 anti-B_s0 gamma VSP_PWAVE; +Enddecay +# +# B_s decays. +# +# +# To count up the BR for this decay: +# awk ' /^0./{ sum = sum + $1 ;print sum } ' junk.dec +# +# anti-B_s decays. +# ------------------------------------------------------- +# whb&fkw 3/28/01 Taken from fkw's QQ tables. +# most dubious part are the B to baryons. +# fkw 4/28/00 made the Bs parallel to the Bd as best as I could +# ------------------------------------------------------- +# +Decay anti-B_s0 +# b --> c (l nu) +# Sum = 24.5% +0.0210 D_s+ e- anti-nu_e PHOTOS ISGW2; +0.0490 D_s*+ e- anti-nu_e PHOTOS ISGW2; +0.0040 D_s1+ e- anti-nu_e PHOTOS ISGW2; +0.0040 D_s0*+ e- anti-nu_e PHOTOS ISGW2; +0.0070 D'_s1+ e- anti-nu_e PHOTOS ISGW2; +0.0070 D_s2*+ e- anti-nu_e PHOTOS ISGW2; +# +0.0210 D_s+ mu- anti-nu_mu PHOTOS ISGW2; +0.0490 D_s*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_s1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_s0*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D'_s1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D_s2*+ mu- anti-nu_mu PHOTOS ISGW2; +# +#0.0070 D_s+ tau- anti-nu_tau ISGW2; +#0.0150 D_s*+ tau- anti-nu_tau ISGW2; +#0.0013 D_s1+ tau- anti-nu_tau ISGW2; +#0.0013 D_s0*+ tau- anti-nu_tau ISGW2; +#0.0023 D'_s1+ tau- anti-nu_tau ISGW2; +#0.0023 D_s2*+ tau- anti-nu_tau ISGW2; +# fkw 5/04/01 changed the above to account for the non-res part that I +# had to take out. +0.0080 D_s+ tau- anti-nu_tau ISGW2; +0.0160 D_s*+ tau- anti-nu_tau ISGW2; +0.0018 D_s1+ tau- anti-nu_tau ISGW2; +0.0018 D_s0*+ tau- anti-nu_tau ISGW2; +0.0028 D'_s1+ tau- anti-nu_tau ISGW2; +0.0028 D_s2*+ tau- anti-nu_tau ISGW2; +# +# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped +# between the charm quark and the spectator. I can thus not +# just replace a D by a Ds as above when going from Bd to Bs. +# fkw 5/04/01 Had to take these out because they crash EvtGen. +# Will have to fix this eventually !!! +#0.0010 D*0 K+ tau- anti-nu_tau GOITY_ROBERTS; +#0.0010 D*+ K0 tau- anti-nu_tau GOITY_ROBERTS; +#0.0010 D0 K+ tau- anti-nu_tau GOITY_ROBERTS; +#0.0010 D+ K0 tau- anti-nu_tau GOITY_ROBERTS; +# fkw 4/28/00 B0B -> TAU D PI0 = 1/2 of TAU D PI+ because of pi0 wave function +# However, the same factor of 1/2 doesn't apply to BSB !!! +# +# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature. +# I don't pretend to understand why. PDG 2000 has a limit of +# < 3.2e-3 where one might naively expect +# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)% +#0.0050 anti-nu_e e- ??? Baryon +#0.0050 anti-nu_mu mu- ??? Baryon +# +# b --> c (s c=) +# Sum = 11.44% +# 2-body = 4.72% +# more-body = 6.72% +0.0086 D_s- D_s+ PHSP; +0.0090 D_s*+ D_s- SVS; +0.0099 D_s*- D_s+ SVS; +0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# fkw 4/28/00 more states with popped q\bar q. +# The one's here involve only popped and spectator. +# Popping stuff in the cs from the W comes further below. +# The same isospin comment applies here as above in the +# semi-leptonic decays with tau and popped q\bar q. +0.0096 D_s- D+ K0 PHSP; +0.0096 D_s- anti-D0 K+ PHSP; +0.0096 D_s*- D+ K0 PHSP; +0.0096 D_s*- D0 K+ PHSP; +# +0.0024 D_s- D+ pi0 K0 PHSP; +0.0048 D_s- D0 pi+ K0 PHSP; +0.0048 D_s- D+ pi- K+ PHSP; +0.0024 D_s- D0 pi0 K+ PHSP; +# +0.0024 D_s*- D+ pi0 K0 PHSP; +0.0048 D_s*- D0 pi+ K0 PHSP; +0.0048 D_s*- D+ pi- K+ PHSP; +0.0024 D_s*- D0 pi0 K+ PHSP; +# +# +# b --> (c ) (c ) (s ) +# Sum = 8.0% +# DDK amplitudes R.A.Briere 10/97 +# fkw 4/28/00 these are q\bar q popping that don't involve the spectator +# Bd->Bs just involves switching the c\bar d to c\bar s. +# +0.0150 D_s*+ anti-D*0 K- PHSP; +0.0150 D_s*+ D*- anti-K0 PHSP; +# +0.0050 D_s*+ anti-D0 K- PHSP; +0.0050 D_s*+ D- anti-K0 PHSP; +# +0.0050 D_s+ anti-D*0 K- PHSP; +0.0050 D_s+ D*- anti-K0 PHSP; +# +0.0020 D_s+ anti-D0 K- PHSP; +0.0020 D_s+ D- anti-K0 PHSP; +# +0.0030 D_s*+ anti-D*0 K*- PHSP; +0.0030 D_s*+ D*- anti-K*0 PHSP; +# +0.0050 D_s*+ anti-D0 K*- PHSP; +0.0050 D_s*+ D- anti-K*0 PHSP; +# +0.0025 D_s+ anti-D*0 K*- PHSP; +0.0025 D_s+ D*- anti-K*0 PHSP; +# +0.0025 D_s+ anti-D0 K*- PHSP; +0.0025 D_s+ D- anti-K*0 PHSP; +# +# +# b --> c (d c=) +# Sum = 1.0% +0.0017 D_s- D+ PHSP; +0.0017 D*+ D_s- SVS; +0.0017 D_s*- D+ SVS; +0.0017 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# fkw 4/38/00 more popping at the lower vertex +# but with upper vertex cabbibo suppressed. +0.0007 D- D+ K0 PHSP; +0.0007 D- anti-D0 K+ PHSP; +0.0007 D*- D+ K0 PHSP; +0.0007 D*- D0 K+ PHSP; +# +0.0003 D- D+ pi0 K0 PHSP; +0.0007 D- D0 pi+ K0 PHSP; +0.0003 D- D+ pi- K+ PHSP; +0.0007 D- D0 pi0 K+ PHSP; +# +0.0003 D*- D+ pi0 K0 PHSP; +0.0007 D*- D0 pi+ K0 PHSP; +0.0003 D*- D+ pi- K+ PHSP; +0.0007 D*- D0 pi0 K+ PHSP; +# +# b --> c (s u=) +# exclusive +# Sum = 0.09% +0.00015 D_s*+ K- SVS; +0.00015 D_s+ K- PHSP; +0.00030 D_s*+ K*- SVV_HELAMP 0.228 0.0 0.0283 0.0 0.932 0.0; +0.00030 K*- D_s+ SVS; +# +# fkw 4/28/00 Strategy for charmonium modes: +# Take Bd BR's, replace spectator, +# assume etaprime = 2/3 ss +# and eta = 1/3 ss +# +# Note: Just for kicks I gave the c\bar c decays a small piece that is +# self tagging. See if you can find it. This is already in +# the B0 decays in cleo's version of decay.dec . +# +# B --> (c c=) (s s=) +# 2.65% +# should be: psi = 0.80% CLNS 94/1315 but isn't quite right. +0.00064 J/psi eta' SVS; +0.00032 J/psi eta SVS; +0.00135 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.00008 J/psi K0 SVS; +0.00070 J/psi K- K+ PHSP; +0.00070 J/psi anti-K0 K0 PHSP; +0.00070 J/psi anti-K0 K+ pi- PHSP; +0.00070 J/psi anti-K0 K0 pi0 PHSP; +0.00070 J/psi K- K+ pi0 PHSP; +# +# psi' = 0.34% CLNS 94/1315 +# +0.000465 psi(2S) eta' SVS; +0.000235 psi(2S) eta SVS; +0.0012 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0003 psi(2S) K- K+ PHSP; +0.0003 psi(2S) anti-K0 K0 PHSP; +0.0003 psi(2S) anti-K0 K+ pi- PHSP; +0.0003 psi(2S) anti-K0 K0 pi0 PHSP; +0.0003 psi(2S) K- K+ pi0 PHSP; +# +# chic0 = 0.05% (20% of chic2) +# Bodwin et.al. Phys Rev D46 1992 +0.00010 chi_c0 eta' PHSP; +0.00005 chi_c0 eta PHSP; +0.00020 phi chi_c0 SVS; +0.00003 chi_c0 K- K+ PHSP; +0.00003 chi_c0 anti-K0 K0 PHSP; +0.00003 chi_c0 anti-K0 K+ pi- PHSP; +0.00003 chi_c0 anti-K0 K0 pi0 PHSP; +0.00003 chi_c0 K- K+ pi0 PHSP; +# +# +# chic1 = 0.37% CLNS 94/1315 +0.0007 chi_c1 eta' SVS; +0.0003 chi_c1 eta SVS; +0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.00026 chi_c1 K- K+ PHSP; +0.00026 chi_c1 anti-K0 K0 PHSP; +0.00026 chi_c1 anti-K0 K+ pi- PHSP; +0.00026 chi_c1 anti-K0 K0 pi0 PHSP; +0.00026 chi_c1 K- K+ pi0 PHSP; +# +# +# chic2 = 0.25% CLNS 94/1315 +0.000465 chi_c2 eta' STS; +0.000235 chi_c2 eta STS; +#0.0010 chi_c2 phi STV; whb: model doesn't exist! +0.00016 chi_c2 K- K+ PHSP; +0.00016 chi_c2 anti-K0 K0 PHSP; +0.00016 chi_c2 anti-K0 K+ pi- PHSP; +0.00016 chi_c2 anti-K0 K0 pi0 PHSP; +0.00016 chi_c2 K- K+ pi0 PHSP; +# +# +# etac(1s) = 0.41% Guess: CBX 97-65 +# +0.0008 eta_c eta' PHSP; +0.0004 eta_c eta PHSP; +0.0015 phi eta_c SVS; +0.00028 eta_c K- K+ PHSP; +0.00028 eta_c anti-K0 K0 PHSP; +0.00028 eta_c anti-K0 K+ pi- PHSP; +0.00028 eta_c anti-K0 K0 pi0 PHSP; +0.00028 eta_c K- K+ pi0 PHSP; +# +# +# etac(2s) = 0.18% Guess: CBX 97-65 +0.0004 eta_c(2S) eta' PHSP; +0.0002 eta_c(2S) eta PHSP; +0.0006 phi eta_c(2S) SVS; +0.00012 eta_c(2S) K- K+ PHSP; +0.00012 eta_c(2S) anti-K0 K0 PHSP; +0.00012 eta_c(2S) anti-K0 K+ pi- PHSP; +0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP; +0.00012 eta_c(2S) K- K+ pi0 PHSP; +# +# +# hc = 0.25% (100% of chic2) +# Bodwin et.al. Phys Rev D46 1992 +# +0.000465 h_c eta' SVS; +0.000235 h_c eta SVS; +0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.00016 h_c K- K+ PHSP; +0.00016 h_c anti-K0 K0 PHSP; +0.00016 h_c anti-K0 K+ pi- PHSP; +0.00016 h_c anti-K0 K0 pi0 PHSP; +0.00016 h_c K- K+ pi0 PHSP; +# +# +# b --> c (d u=) +# Exclusive Channels = 6.33% +# fkw 4/28/00 I rearanged this a bit after copying it from +# B0B decay list. +# +# first come the external W-emission decays: +# +0.0008 D_s1+ pi- SVS; +0.0021 D_s1+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0013 D_s2*+ pi- STS; +#0.0037 D_s2*+ rho- STV; # whb: model doesn't exist +# +0.0027 D_s*+ pi- SVS; +0.0026 D_s+ pi- PHSP; +0.0073 rho- D_s+ SVS; +0.0070 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +0.0085 a_1- D_s+ SVS; +0.0009 D_s+ rho0 pi- PHSP; +0.0009 D_s+ rho- pi0 PHSP; +0.0009 D_s+ pi+ pi- pi- PHSP; +0.0009 D_s+ pi0 pi- pi0 PHSP; +# +0.0122 D_s*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D_s*+ rho0 pi- PHSP; +0.0010 D_s*+ rho- pi0 PHSP; +0.0077 D_s*+ pi+ pi- pi- PHSP; +0.0010 D_s*+ pi0 pi- pi0 PHSP; +# +# then the color suppressed decays: +# +# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin +# i.e. Bs doesn't have the factor 2 suppression Bd has. +0.0002 D*0 K0 SVS; +0.0002 D0 K0 PHSP; +0.0002 K*0 D0 SVS; +0.0002 D*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# fkw 4/28/00 ignore the internal W emission decays with additional +# q\bar q popping. +# +# Here come the various types of "inclusive unknown" decays: +# +# Start with B to baryons: +# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!! +0.0200 cs_0 anti-ud_0 JETSET 23; +0.0400 cs_1 anti-ud_1 JETSET 23; +# +# Next come external W-emission: +0.312355 anti-u d c anti-s JETSET 48; +0.05000 anti-u d c anti-s JETSET 25; +# Now the internal W-emission: +0.02000 anti-u c d anti-s JETSET 48; +# Then some b->u external W-emission with upper vertex charm +0.00400 anti-c s u anti-s JETSET 48; +# and finally some cabibbo suppressed external and internal W-emission +0.0150 anti-u s c anti-s JETSET 48; +0.00220 anti-u s c anti-s JETSET 25; +0.00090 anti-u c s anti-s JETSET 48; +# and some c cbar d stuff as well as c cbar s +0.00600 anti-c d c anti-s JETSET 13; +0.00200 anti-c d c anti-s JETSET 13; +# and some miscellaneous charmless stuff +0.00410 anti-u u d anti-s JETSET 48; +0.00070 anti-d d d anti-s JETSET 48; +0.00090 anti-s s d anti-s JETSET 48; +0.00220 anti-u u s anti-s JETSET 48; +0.00180 anti-d d s anti-s JETSET 48; +0.00150 anti-s s s anti-s JETSET 48; +0.00500 s g anti-s JETSET 33; + +# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen +0.000200 K+ e- anti-nu_e PHOTOS ISGW2; +0.000300 K*+ e- anti-nu_e PHOTOS ISGW2; +0.000300 K_1+ e- anti-nu_e PHOTOS ISGW2; +0.000200 K'_1+ e- anti-nu_e PHOTOS ISGW2; +# +# +0.000200 K+ mu- anti-nu_mu PHOTOS ISGW2; +0.000300 K*+ mu- anti-nu_mu PHOTOS ISGW2; +0.000300 K_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000200 K'_1+ mu- anti-nu_mu PHOTOS ISGW2; +# ------------- +# 2e-3 for charmless semi-leptonic + +#*********************************************************** +# +# fkw 5/10/00 +# +# ideas behind these (largely) made up Br's for charmless +# hadronic B decays: +# (1) any PP and PV modes that are used or calculated +# in globfit code by Hou,Smith,Wuerthwein are taken from +# the latest fit i.e. May2000 +# (2) anything else is from Ali,Kramer,Lue +# +# None of this should be taken too serious! +# +#*********************************************************** +0.0000193 K- K+ PHSP; +0.0000079 anti-K0 K0 PHSP; +0.0000043 pi- K+ PHSP; +0.0000002 pi0 K0 PHSP; +# +0.0000012 omega eta SVS; +0.0000025 omega eta' SVS; +0.0000013 phi eta SVS; +0.0000025 phi eta' SVS; +0.00000008 omega anti-K0 SVS; +0.000000002 phi anti-K0 SVS; +# +#next is just twice PI- RHO0 +0.0000250 K*+ pi- SVS; +0.0000120 rho- K+ SVS; +0.00000002 rho0 K0 SVS; +0.00000002 K*0 pi0 SVS; +# +0.0000046 K*- K+ SVS; +0.0000005 anti-K*0 K0 SVS; +0.0000082 K*+ K- SVS; +0.0000066 K*0 anti-K0 SVS; +# +0.0000580 eta' eta' PHSP; +0.0000250 eta' eta PHSP; +0.0000040 eta eta PHSP; +0.0000200 phi eta SVS; +0.0000100 phi eta' SVS; +# +#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 +0.00000007 K0 eta' PHSP; +0.00000023 K0 eta PHSP; +0.00000010 K0 eta' PHSP; +0.00000010 K0 eta PHSP; +0.000000021 K*0 eta' SVS; +0.00000007 K*0 eta SVS; +# +#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 +# for vector-vector final states +0.000020 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000008 rho0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000000005 omega K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000008 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# decays that go via b->d penguins +0.0000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000002 K*0 eta SVS; +0.0000002 K*0 eta' SVS; +0.0000003 eta K0 PHSP; +0.0000006 eta' K0 PHSP; +#-------------- +# 257.122e-6 for all the charmless hadronic +# +Enddecay +# +# B_s decays. +# ------------------------------------------------------- +# whb&fkw 3/28/01 Taken from fkw's QQ tables. +# most dubious part are the B to baryons. +# fkw 4/28/00 made the Bs parallel to the Bd as best as I could +# ------------------------------------------------------- +Decay B_s0 +0.0210 D_s- e+ nu_e PHOTOS ISGW2; +0.0490 D_s*- e+ nu_e PHOTOS ISGW2; +0.0040 D_s1- e+ nu_e PHOTOS ISGW2; +0.0040 D_s0*- e+ nu_e PHOTOS ISGW2; +0.0070 D'_s1- e+ nu_e PHOTOS ISGW2; +0.0070 D_s2*- e+ nu_e PHOTOS ISGW2; +0.0210 D_s- mu+ nu_mu PHOTOS ISGW2; +0.0490 D_s*- mu+ nu_mu PHOTOS ISGW2; +0.0040 D_s1- mu+ nu_mu PHOTOS ISGW2; +0.0040 D_s0*- mu+ nu_mu PHOTOS ISGW2; +0.0070 D'_s1- mu+ nu_mu PHOTOS ISGW2; +0.0070 D_s2*- mu+ nu_mu PHOTOS ISGW2; +#fkw 5/04/01 changed these to account for taking out non-res +#0.0070 D_s- tau+ nu_tau ISGW2; +#0.0150 D_s*- tau+ nu_tau ISGW2; +#0.0013 D_s1- tau+ nu_tau ISGW2; +#0.0013 D_s0*- tau+ nu_tau ISGW2; +#0.0023 D'_s1- tau+ nu_tau ISGW2; +#0.0023 D_s2*- tau+ nu_tau ISGW2; +0.0080 D_s- tau+ nu_tau ISGW2; +0.0160 D_s*- tau+ nu_tau ISGW2; +0.0018 D_s1- tau+ nu_tau ISGW2; +0.0018 D_s0*- tau+ nu_tau ISGW2; +0.0028 D'_s1- tau+ nu_tau ISGW2; +0.0028 D_s2*- tau+ nu_tau ISGW2; +# +# fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped +# between the charm quark and the spectator. I can thus not +# just replace a D by a Ds as above when going from Bd to Bs. +# +# fkw 5/04/01 Had to take non-res out because it crashed EvtGen. +#0.0010 anti-D*0 K- tau+ nu_tau GOITY_ROBERTS; +#0.0010 D*- anti-K0 tau+ nu_tau GOITY_ROBERTS; +#0.0010 anti-D0 K- tau+ nu_tau GOITY_ROBERTS; +#0.0010 D- anti-K0 tau+ nu_tau GOITY_ROBERTS; +# fkw 4/28/00 B0 -> TAU D PI0 = 1/2 of TAU D PI- because of pi0 wave function +# However, the same factor of 1/2 doesn't apply to BS0 !!! +# fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature. +# I don't pretend to understand why. PDG 2000 has a limit of +# < 3.2e-3 where one might naively expect +# 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)% +#0.0050 nu_e e+ B-Baryon +#0.0050 nu_mu mu+ B-Baryon +# +# b --> c (s c=) +# Sum = 11.44% +# 2-body = 4.72% +# more-body = 6.72% +0.0086 D_s- D_s+ PHSP; +0.0090 D_s*+ D_s- SVS; +0.0099 D_s*- D_s+ SVS; +0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# fkw 4/28/00 more states with popped q\bar q. +# The one's here involve only popped and spectator. +# Popping stuff in the cs from the W comes further below. +# The same isospin comment applies here as above in the +# semi-leptonic decays with tau and popped q\bar q. +0.0096 D_s+ D- anti-K0 PHSP; +0.0096 D_s+ D0 K- PHSP; +0.0096 D_s*+ D- anti-K0 PHSP; +0.0096 D_s*+ anti-D0 K- PHSP; +# +0.0024 D_s+ D- pi0 anti-K0 PHSP; +0.0048 D_s+ anti-D0 pi- anti-K0 PHSP; +0.0048 D_s+ D- pi+ K- PHSP; +0.0024 D_s+ anti-D0 pi0 K- PHSP; +# +0.0024 D_s*+ D- pi0 anti-K0 PHSP; +0.0048 D_s*+ anti-D0 pi- anti-K0 PHSP; +0.0048 D_s*+ D- pi+ K- PHSP; +0.0024 D_s*+ anti-D0 pi0 K- PHSP; +# +# +# b --> (c ) (c ) (s ) +# Sum = 8.0% +# DDK amplitudes R.A.Briere 10/97 +# fkw 4/28/00 these are q\bar q popping that don't involve the spectator +# Bd->Bs just involves switching the c\bar d to c\bar s. +# +0.0150 D_s*- D*0 K+ PHSP; +0.0150 D_s*- D*+ K0 PHSP; +0.0050 D_s*- D0 K+ PHSP; +0.0050 D_s*- D+ K0 PHSP; +0.0050 D_s- D*0 K+ PHSP; +0.0050 D_s- D*+ K0 PHSP; +0.0020 D_s- D0 K+ PHSP; +0.0020 D_s- D+ K0 PHSP; +0.0030 D_s*- D*0 K*+ PHSP; +0.0030 D_s*- D*+ K*0 PHSP; +0.0050 D_s*- D0 K*+ PHSP; +0.0050 D_s*- D+ K*0 PHSP; +0.0025 D_s- D*0 K*+ PHSP; +0.0025 D_s- D*+ K*0 PHSP; +0.0025 D_s- D0 K*+ PHSP; +0.0025 D_s- D+ K*0 PHSP; +# +# +# b --> c (d c=) +# Sum = 1.36% +0.0017 D_s+ D- PHSP; +0.0017 D*- D_s+ SVS; +0.0017 D_s*+ D- SVS; +0.0017 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# fkw 4/38/00 more popping at the lower vertex +# but with upper vertex cabbibo suppressed. +0.0007 D+ D- anti-K0 PHSP; +0.0007 D+ D0 K- PHSP; +0.0007 D*+ D- anti-K0 PHSP; +0.0007 D*+ anti-D0 K- PHSP; +# +0.0003 D+ D- pi0 anti-K0 PHSP; +0.0007 D+ anti-D0 pi- anti-K0 PHSP; +0.0003 D+ D- pi+ K- PHSP; +0.0007 D+ anti-D0 pi0 K- PHSP; +# +0.0003 D*+ D- pi0 anti-K0 PHSP; +0.0007 D*+ anti-D0 pi- anti-K0 PHSP; +0.0003 D*+ D- pi+ K- PHSP; +0.0007 D*+ anti-D0 pi0 K- PHSP; +# +# b --> c (u s=) +# exclusive +# Sum = 0.9% +0.00015 D_s*- K+ SVS; +0.00015 D_s- K+ PHSP; +0.00030 D_s*- K*+ SVV_HELAMP 0.228 0.0 0.0283 0.0 0.932 0.0; +0.00030 K*+ D_s- SVS; +# +# fkw 4/28/00 Strategy for charmonium modes: +# Take Bd BR's, replace spectator, +# assume etaprime = 2/3 ss +# and eta = 1/3 ss +# +# Note: Just for kicks I gave the c\bar c decays a small piece that is +# self tagging. See if you can find it. This is already in +# the B0 decays in cleo's version of decay.dec . +# +# B --> (c c=) (s s=) +# 2.65% +# should be: psi = 0.80% CLNS 94/1315 but isn't quite right. +0.00064 J/psi eta' SVS; +0.00032 J/psi eta SVS; +0.00135 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.00008 J/psi K0 SVS; +0.00070 J/psi K- K+ PHSP; +0.00070 J/psi anti-K0 K0 PHSP; +0.00070 J/psi K0 K- pi+ PHSP; +0.00070 J/psi anti-K0 K0 pi0 PHSP; +0.00070 J/psi K- K+ pi0 PHSP; +# psi' = 0.34% CLNS 94/1315 +0.000465 psi(2S) eta' SVS; +0.000235 psi(2S) eta SVS; +0.0012 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0003 psi(2S) K- K+ PHSP; +0.0003 psi(2S) anti-K0 K0 PHSP; +0.0003 psi(2S) K0 K- pi+ PHSP; +0.0003 psi(2S) anti-K0 K0 pi0 PHSP; +0.0003 psi(2S) K- K+ pi0 PHSP; +# +# chic0 = 0.05% (20% of chic2) +# Bodwin et.al. Phys Rev D46 1992 +0.00010 chi_c0 eta' PHSP; +0.00005 chi_c0 eta PHSP; +0.00020 phi chi_c0 SVS; +0.00003 chi_c0 K- K+ PHSP; +0.00003 chi_c0 anti-K0 K0 PHSP; +0.00003 chi_c0 K0 K- pi+ PHSP; +0.00003 chi_c0 anti-K0 K0 pi0 PHSP; +0.00003 chi_c0 K- K+ pi0 PHSP; +# +# +# chic1 = 0.37% CLNS 94/1315 +0.0007 chi_c1 eta' SVS; +0.0003 chi_c1 eta SVS; +0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.00026 chi_c1 K- K+ PHSP; +0.00026 chi_c1 anti-K0 K0 PHSP; +0.00026 chi_c1 K0 K- pi+ PHSP; +0.00026 chi_c1 anti-K0 K0 pi0 PHSP; +0.00026 chi_c1 K- K+ pi0 PHSP; +# +# +# chic2 = 0.25% CLNS 94/1315 +0.000465 chi_c2 eta' STS; +0.000235 chi_c2 eta STS; +#0.0010 chi_c2 phi STV; whb: doesn't exist +0.00016 chi_c2 K- K+ PHSP; +0.00016 chi_c2 anti-K0 K0 PHSP; +0.00016 chi_c2 K0 K- pi+ PHSP; +0.00016 chi_c2 anti-K0 K0 pi0 PHSP; +0.00016 chi_c2 K- K+ pi0 PHSP; +# +# +# etac(1s) = 0.41% Guess: CBX 97-65 +0.0008 eta_c eta' PHSP; +0.0004 eta_c eta PHSP; +0.0015 phi eta_c SVS; +0.00028 eta_c K- K+ PHSP; +0.00028 eta_c K0 anti-K0 PHSP; +0.00028 eta_c K0 K- pi+ PHSP; +0.00028 eta_c K0 anti-K0 pi0 PHSP; +0.00028 eta_c K- K+ pi0 PHSP; +# +# +# etac(2s) = 0.18% Guess: CBX 97-65 +0.0004 eta_c(2S) eta' PHSP; +0.0002 eta_c(2S) eta PHSP; +0.0006 phi eta_c(2S) SVS; +0.00012 eta_c(2S) K- K+ PHSP; +0.00012 eta_c(2S) anti-K0 K0 PHSP; +0.00012 eta_c(2S) K0 K- pi+ PHSP; +0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP; +0.00012 eta_c(2S) K- K+ pi0 PHSP; +# +# +# hc = 0.25% (100% of chic2) +# Bodwin et.al. Phys Rev D46 1992 +0.000465 h_c eta' SVS; +0.000235 h_c eta SVS; +0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.00016 h_c K- K+ PHSP; +0.00016 h_c anti-K0 K0 PHSP; +0.00016 h_c K0 K- pi+ PHSP; +0.00016 h_c anti-K0 K0 pi0 PHSP; +0.00016 h_c K- K+ pi0 PHSP; +# +# +# b --> c (d u=) +# Exclusive Channels = 6.33% +# fkw 4/28/00 I rearanged this a bit after copying it from +# B0B decay list. +# +# first come the external W-emission decays: +# +0.0008 D_s1- pi+ SVS; +0.0021 D_s1- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0013 D_s2*- pi+ STS; +#0.0037 D_s2*- rho+ STV; #whb: STV does not exist yet +# +0.0027 D_s*- pi+ SVS; +0.0026 D_s- pi+ PHSP; +0.0073 rho+ D_s- SVS; +0.0070 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +0.0085 a_1+ D_s- SVS; +0.0009 D_s- rho0 pi+ PHSP; +0.0009 D_s- rho+ pi0 PHSP; +0.0009 D_s- pi- pi+ pi+ PHSP; +0.0009 D_s- pi0 pi+ pi0 PHSP; +# +0.0122 D_s*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D_s*- rho0 pi+ PHSP; +0.0010 D_s*- rho+ pi0 PHSP; +0.0077 D_s*- pi- pi+ pi+ PHSP; +0.0010 D_s*- pi0 pi+ pi0 PHSP; +# +# then the color suppressed decays: +# +# fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin +# i.e. Bs doesn't have the factor 2 suppression Bd has. +0.0002 anti-D*0 anti-K0 SVS; +0.0002 anti-D0 anti-K0 PHSP; +0.0002 anti-K*0 anti-D0 SVS; +0.0002 anti-D*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# fkw 4/28/00 ignore the internal W emission decays with additional +# q\bar q popping. +# +# Here come the various types of "inclusive unknown" decays: +# +# Start with B to baryons: +# fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!! +0.0200 anti-cs_0 ud_0 JETSET 23; +0.0400 anti-cs_1 ud_1 JETSET 23; +# +# Next come external W-emission: +0.312355 u anti-d anti-c s JETSET 48; +0.05000 u anti-d anti-c s JETSET 25; +# Now the internal W-emission: +0.02000 u anti-c anti-d s JETSET 48; +# Then some b->u external W-emission with upper vertex charm +0.00400 c anti-s anti-u s JETSET 48; +# and finally some cabibbo suppressed external and internal W-emission +0.0150 u anti-s anti-c s JETSET 48; +0.00220 u anti-s anti-c s JETSET 25; +0.00090 u anti-c anti-s s JETSET 48; +# and some c cbar d stuff as well as c cbar s +0.00600 c anti-d anti-c s JETSET 13; +0.00200 c anti-d anti-c s JETSET 13; +# and some miscellaneous charmless stuff +0.00410 u anti-u anti-d s JETSET 48; +0.00070 d anti-d anti-d s JETSET 48; +0.00090 s anti-s anti-d s JETSET 48; +0.00220 u anti-u anti-s s JETSET 48; +0.00180 d anti-d anti-s s JETSET 48; +0.00150 s anti-s anti-s s JETSET 48; +0.00500 anti-s g s JETSET 33; + +# fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen +0.000200 K- e+ nu_e PHOTOS ISGW2; +0.000300 K*- e+ nu_e PHOTOS ISGW2; +0.000300 K_1- e+ nu_e PHOTOS ISGW2; +0.000200 K'_1- e+ nu_e PHOTOS ISGW2; +# +# +0.000200 K- mu+ nu_mu PHOTOS ISGW2; +0.000300 K*- mu+ nu_mu PHOTOS ISGW2; +0.000300 K_1- mu+ nu_mu PHOTOS ISGW2; +0.000200 K'_1- mu+ nu_mu PHOTOS ISGW2; +# ------------- +# 2e-3 for charmless semi-leptonic + +#*********************************************************** +# +# fkw 5/10/00 +# +# ideas behind these (largely) made up Br's for charmless +# hadronic B decays: +# (1) any PP and PV modes that are used or calculated +# in globfit code by Hou,Smith,Wuerthwein are taken from +# the latest fit i.e. May2000 +# (2) anything else is from Ali,Kramer,Lue +# +# None of this should be taken too serious! +# +#*********************************************************** +0.0000193 K- K+ PHSP; +0.0000079 anti-K0 K0 PHSP; +0.0000043 pi+ K- PHSP; +0.0000002 pi0 anti-K0 PHSP; +# +0.0000012 omega eta SVS; +0.0000025 omega eta' SVS; +0.0000013 phi eta SVS; +0.0000025 phi eta' SVS; +0.00000008 omega K0 SVS; +0.000000002 phi K0 SVS; +# +0.0000250 K*- pi+ SVS; +0.0000120 rho+ K- SVS; +0.00000002 rho0 K0 SVS; +0.00000002 anti-K*0 pi0 SVS; +# +0.0000046 K*+ K- SVS; +0.0000005 K*0 anti-K0 SVS; +0.0000082 K*- K+ SVS; +0.0000066 anti-K*0 K0 SVS; +# +0.0000580 eta' eta' PHSP; +0.0000250 eta' eta PHSP; +0.0000040 eta eta PHSP; +0.0000200 phi eta SVS; +0.0000100 phi eta' SVS; +# +#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 +0.00000007 anti-K0 eta' PHSP; +0.00000023 anti-K0 eta PHSP; +0.00000010 anti-K0 eta' PHSP; +0.00000010 anti-K0 eta PHSP; +0.000000021 anti-K*0 eta' SVS; +0.00000007 anti-K*0 eta SVS; +# +#next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 +# for vector-vector final states +0.000020 rho+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000008 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000000005 omega anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000008 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# decays that go via b->d penguins +0.0000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000002 anti-K*0 eta SVS; +0.0000002 anti-K*0 eta' SVS; +0.0000003 eta anti-K0 PHSP; +0.0000006 eta' anti-K0 PHSP; +#-------------- +# 257.122e-6 for all the charmless hadronic +# +Enddecay + +# whb: QQ B_c included. Needs more work! +#Decay B_c- +#CHANNEL 0 0.0700 TAU- NUTB +#CHANNEL 1 0.1100 NUEB E- *CC* +#CHANNEL 1 0.1100 NUMB MU- *CC* +#CHANNEL 1 0.0300 NUTB TAU- *CC* +#CHANNEL 0 0.3400 *DU* *CC* +#CHANNEL 0 0.0700 *SC* *CC* +#CHANNEL 0 0.2700 *SC* +#0.0700 tau- anti-nu_tau PHSP; +#0.1100 anti-nu_e e- *CC* Simpleleptonic; +#0.1100 anti-nu_mu mu- *CC* Simple leptonic; +#0.0300 anti-nu_tau tau- *CC* Simple leptonic; +#0.3400 *DU* *CC* PHSP; +#0.0700 *SC* *CC* PHSP; +#0.2700 *SC* PHSP; +#Enddecay +# +#Decay B_c+ +#CHANNEL 0 0.0700 TAU+ NUT +#CHANNEL 1 0.1100 NUE E+ *CC* +#CHANNEL 1 0.1100 NUM MU+ *CC* +#CHANNEL 1 0.0300 NUT TAU+ *CC* +#CHANNEL 0 0.3400 *UD* *CC* +#CHANNEL 0 0.0700 *CS* *CC* +#CHANNEL 0 0.2700 *CS* +#0.0700 tau+ nu_tau PHSP; +#0.1100 nu_e E+ *CC* Simple leptonic; +#0.1100 nu_mu mu+ *CC* Simple leptonic; +#0.0300 nu_tau tau+ *CC* Simple leptonic; +#0.3400 *UD* *CC* PHSP; +#0.0700 *CS* *CC* PHSP; +#0.2700 *CS* PHSP; +#Enddecay + +# +# The tau branching fractions needs to be looked over! +# +Decay tau- +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; +0.1790 a_1- nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0134 K*- nu_tau TAUVECTORNU; +0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; +0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K0 pi- anti-K0 JETSET 41; +0.0015 nu_tau K- pi0 K0 JETSET 41; +0.0005 nu_tau K- pi0 pi0 JETSET 41; +0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0055 nu_tau pi- anti-K0 pi0 JETSET 41; +0.0017 nu_tau eta pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +0.0039 nu_tau pi- omega pi0 JETSET 41; +0.0010 nu_tau K- K0 JETSET 41; +0.0010 nu_tau K- omega JETSET 41; +Enddecay +# +CDecay tau+ +# +# Vector Mesons +# + +Decay D*+ +0.6830 D0 pi+ VSS; +0.3060 D+ pi0 VSS; +0.0110 D+ gamma VSP_PWAVE; +Enddecay +Decay D*- +0.6830 anti-D0 pi- VSS; +0.3060 D- pi0 VSS; +0.0110 D- gamma VSP_PWAVE; +Enddecay +Decay D*0 +0.6190 D0 pi0 VSS; +0.3810 D0 gamma VSP_PWAVE; +Enddecay +Decay anti-D*0 +0.6190 anti-D0 pi0 VSS; +0.3810 anti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay D_s*+ +0.942 D_s+ gamma VSP_PWAVE; +0.058 D_s+ pi0 VSS; +Enddecay +Decay D_s*- +0.942 D_s- gamma VSP_PWAVE; +0.058 D_s- pi0 VSS; +Enddecay +# +# +# D+ Meson +# +Decay D+ +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +# +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +# +0.0008 mu+ nu_mu PHOTOS SLN; +0.0024 tau+ nu_tau SLN; +# +0.0289 anti-K0 pi+ PHSP; +0.0800 a_1+ anti-K0 SVS; +0.0508 anti-K'_10 pi+ SVS; +0.0115 anti-K_0*0N pi+ PHSP; +0.0210 anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +# the Dalitz mode below includes K0bar rho+, +# and K*bar(892)0 pi+ resonances +0.0970 anti-K0 pi+ pi0 D_DALITZ; +0.0100 anti-K0 eta pi+ PHSP; +0.0050 anti-K0 rho0 pi+ PHSP; +0.0050 anti-K0 omega pi+ PHSP; +0.0110 K- rho+ pi+ PHSP; +0.0070 K*- pi+ pi+ PHSP; +0.0100 anti-K*0 pi0 pi+ PHSP; +0.0100 anti-K*0 eta pi+ PHSP; +0.0078 anti-K*0 rho0 pi+ PHSP; +0.0050 anti-K*0 omega pi+ PHSP; +0.0100 K*- rho+ pi+ PHSP; +# +0.0120 K- pi+ pi+ pi0 PHSP; +0.0080 anti-K0 pi+ pi+ pi- PHSP; +0.0188 anti-K0 pi+ pi0 pi0 PHSP; +0.0072 K- pi+ pi+ pi+ pi- PHSP; +0.0022 K- pi+ pi+ pi0 pi0 PHSP; +0.0387 anti-K0 pi+ pi+ pi- pi0 PHSP; +0.0035 anti-K0 pi+ pi0 pi0 pi0 PHSP; +# +0.0180 anti-K0 anti-K0 K+ PHSP; +0.0070 phi pi+ SVS; +0.0230 phi pi+ pi0 PHSP; +0.0074 anti-K0 K+ PHSP; +0.0042 anti-K*0 K+ SVS; +0.0211 K*+ anti-K0 SVS; +0.0180 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0087 K+ K- pi+ PHSP; +0.0010 K+ anti-K0 pi0 PHSP; +0.0010 anti-K0 K0 pi+ PHSP; +0.0010 K*+ K- pi+ PHSP; +0.0010 K+ K*- pi+ PHSP; +0.0010 K*+ anti-K0 pi0 PHSP; +0.0010 K+ anti-K*0 pi0 PHSP; +0.0010 anti-K*0 K0 pi+ PHSP; +0.0010 anti-K0 K*0 pi+ PHSP; +# +0.0026 pi0 pi+ PHSP; +0.0010 rho0 pi+ SVS; +0.0036 pi+ pi+ pi- PHSP; +0.0030 pi+ pi0 pi0 PHSP; +0.0190 pi+ pi+ pi- pi0 PHSP; +0.0100 pi+ pi0 pi0 pi0 PHSP; +0.0076 eta pi+ PHSP; +0.0030 eta pi+ pi0 PHSP; +0.0030 eta pi+ pi+ pi- PHSP; +0.0020 eta pi+ pi0 pi0 PHSP; +Enddecay +# +# +Decay D- +0.0480 K*0 e- anti-nu_e PHOTOS ISGW2; +0.0670 K0 e- anti-nu_e PHOTOS ISGW2; +0.0036 K_10 e- anti-nu_e PHOTOS ISGW2; +0.0038 K_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0031 pi0 e- anti-nu_e PHOTOS ISGW2; +0.0028 eta e- anti-nu_e PHOTOS ISGW2; +0.0011 eta' e- anti-nu_e PHOTOS ISGW2; +0.0022 rho0 e- anti-nu_e PHOTOS ISGW2; +0.0029 omega e- anti-nu_e PHOTOS ISGW2; +0.0027 K+ pi- e- anti-nu_e PHOTOS PHSP; +# +0.0430 K*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0700 K0 mu- anti-nu_mu PHOTOS ISGW2; +0.0036 K_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0038 K_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0064 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.0028 eta mu- anti-nu_mu PHOTOS ISGW2; +0.0011 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.0027 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.0029 omega mu- anti-nu_mu PHOTOS ISGW2; +0.0027 K+ pi- mu- anti-nu_e PHOTOS PHSP; +# +0.0008 mu- anti-nu_mu PHOTOS SLN; +0.0024 tau- anti-nu_tau SLN; +# +0.0289 K0 pi- PHSP; +0.0800 a_1- K0 SVS; +0.0508 K'_10 pi- SVS; +0.0115 K_0*0N pi- PHSP; +0.0210 K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +0.0900 K+ pi- pi- D_DALITZ; +# the Dalitz mode below includes K0 rho-, and K*(892)0 pi- resonances. +0.0970 K0 pi- pi0 D_DALITZ; +0.0100 K0 eta pi- PHSP; +0.0050 K0 rho0 pi- PHSP; +0.0050 K0 omega pi- PHSP; +0.0110 K+ rho- pi- PHSP; +0.0070 K*+ pi- pi- PHSP; +0.0100 K*0 pi0 pi- PHSP; +0.0100 K*0 eta pi- PHSP; +0.0078 K*0 rho0 pi- PHSP; +0.0050 K*0 omega pi- PHSP; +0.0100 K*+ rho- pi- PHSP; +# +0.0120 K+ pi- pi- pi0 PHSP; +0.0080 K0 pi- pi- pi+ PHSP; +0.0188 K0 pi- pi0 pi0 PHSP; +0.0072 K+ pi- pi- pi- pi+ PHSP; +0.0022 K+ pi- pi- pi0 pi0 PHSP; +0.0387 K0 pi- pi- pi+ pi0 PHSP; +0.0035 K0 pi- pi0 pi0 pi0 PHSP; +# +0.0180 K0 K0 K- PHSP; +0.0070 phi pi- SVS; +0.0230 phi pi- pi0 PHSP; +0.0074 K0 K- PHSP; +0.0042 K*0 K- SVS; +0.0211 K*- K0 SVS; +0.0180 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0087 K- K+ pi- PHSP; +0.0010 K- K0 pi0 PHSP; +0.0010 anti-K0 K0 pi- PHSP; +0.0010 K*- K+ pi- PHSP; +0.0010 K- K*+ pi- PHSP; +0.0010 K*- K0 pi0 PHSP; +0.0010 K- K*0 pi0 PHSP; +0.0010 K*0 anti-K0 pi- PHSP; +0.0010 K0 anti-K*0 pi- PHSP; +# +0.0026 pi0 pi- PHSP; +0.0010 rho0 pi- SVS; +0.0036 pi- pi+ pi- PHSP; +0.0030 pi- pi0 pi0 PHSP; +0.0190 pi- pi+ pi- pi0 PHSP; +0.0100 pi- pi0 pi0 pi0 PHSP; +0.0076 eta pi- PHSP; +0.0030 eta pi- pi0 PHSP; +0.0030 eta pi- pi+ pi- PHSP; +0.0020 eta pi- pi0 pi0 PHSP; +Enddecay +# +Decay K*BR +1.0000 anti-K0 pi0 VSS; +Enddecay +# +# +Decay D0 +0.0202 K*- e+ nu_e PHOTOS ISGW2; +0.0364 K- e+ nu_e PHOTOS ISGW2; +0.0014 K_1- e+ nu_e PHOTOS ISGW2; +0.0015 K_2*- e+ nu_e PHOTOS ISGW2; +0.0037 pi- e+ nu_e PHOTOS ISGW2; +0.0029 rho- e+ nu_e PHOTOS ISGW2; +0.0198 K*- mu+ nu_mu PHOTOS ISGW2; +0.0322 K- mu+ nu_mu PHOTOS ISGW2; +0.0014 K_1- mu+ nu_mu PHOTOS ISGW2; +0.0015 K_2*- mu+ nu_mu PHOTOS ISGW2; +0.0037 pi- mu+ nu_mu PHOTOS ISGW2; +0.0029 rho- mu+ nu_mu PHOTOS ISGW2; +# +0.0383 K- pi+ PHSP; +0.0212 anti-K0 pi0 PHSP; +0.0071 anti-K0 eta PHSP; +0.0172 anti-K0 eta' PHSP; +0.0210 omega anti-K0 SVS; +0.0190 anti-K*0 eta SVS; +0.0020 anti-K*0 eta' SVS; +0.0730 a_1+ K- SVS; +0.0610 K*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0146 anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0110 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +0.0085 K*BR pi0 SVS; +0.0107 K_1- pi+ SVS; +0.0071 anti-K_10 pi0 SVS; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0 pi+ pi- D_DALITZ; +0.0078 anti-K0 pi0 pi0 PHSP; +0.0225 anti-K*0 pi+ pi- PHSP; +0.0116 anti-K*0 pi0 pi0 PHSP; +0.0100 K*- pi+ pi0 PHSP; +0.0068 K- rho+ pi0 PHSP; +0.0060 K- pi+ rho0 PHSP; +0.0303 K- pi+ omega PHSP; +0.0100 K- pi+ eta PHSP; +0.0075 K- pi+ eta' PHSP; +0.0174 K- pi+ pi+ pi- PHSP; +0.0085 anti-K0 pi+ pi- pi0 PHSP; +# +# K- pi+ pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to +# have everything add to 1 and get enough neutral kaons: +0.00575 K- pi+ pi0 pi0 PHSP; +# +0.0200 anti-K0 pi0 pi0 pi0 PHSP; +0.0038 K- pi+ pi+ pi- pi0 PHSP; +0.0038 K- pi+ pi0 pi0 pi0 PHSP; +0.0058 anti-K0 pi+ pi- pi+ pi- PHSP; +# +0.0638 anti-K0 pi+ pi- pi0 pi0 PHSP; +0.0192 anti-K0 pi+ pi- pi0 pi0 pi0 PHSP; +# +0.0086 phi anti-K0 SVS; +0.0051 anti-K0 K+ K- PHSP; +0.0008 K_S0 K_S0 K_S0 PHSP; +0.0043 K+ K- PHSP; +0.0006 K_S0 K_S0 PHSP; +0.0006 K_L0 K_L0 PHSP; +0.0004 K*0 anti-K0 SVS; +0.0008 anti-K*0 K0 SVS; +0.0018 K*- K+ SVS; +0.0035 K*+ K- SVS; +0.0014 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0007 phi pi0 SVS; +0.0011 phi pi+ pi- PHSP; +0.0025 K+ K- pi+ pi- PHSP; +0.0030 K+ K- pi0 pi0 PHSP; +0.0015 anti-K0 K0 pi+ pi- PHSP; +0.0015 anti-K0 K0 pi0 pi0 PHSP; +# +0.0015 pi+ pi- PHSP; +0.0008 pi0 pi0 PHSP; +0.0010 eta pi0 PHSP; +0.0010 eta' pi0 PHSP; +0.0010 eta eta PHSP; +0.0040 rho+ pi- SVS; +0.0040 rho- pi+ SVS; +0.0020 rho0 pi0 SVS; +0.0160 pi+ pi- pi0 PHSP; +0.0010 pi0 pi0 pi0 PHSP; +0.0073 pi+ pi+ pi- pi- PHSP; +0.0050 pi+ pi- pi0 pi0 PHSP; +0.0177 pi+ pi- pi+ pi- pi0 PHSP; +0.0060 pi+ pi- pi0 pi0 pi0 PHSP; +# +# Doubly Cabibbo suppressed decays: +0.00015 pi- K+ PHSP; +0.0005 pi- K+ pi0 PHSP; +Enddecay +# +# +Decay K*0R +1.0000 K0 pi0 VSS; +Enddecay +# +# +Decay anti-D0 +0.0202 K*+ e- anti-nu_e PHOTOS ISGW2; +0.0364 K+ e- anti-nu_e PHOTOS ISGW2; +0.0014 K_1+ e- anti-nu_e PHOTOS ISGW2; +0.0015 K_2*+ e- anti-nu_e PHOTOS ISGW2; +0.0037 pi+ e- anti-nu_e PHOTOS ISGW2; +0.0029 rho+ e- anti-nu_e PHOTOS ISGW2; +0.0198 K*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0322 K+ mu- anti-nu_mu PHOTOS ISGW2; +0.0014 K_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0015 K_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 pi+ mu- anti-nu_mu PHOTOS ISGW2; +0.0029 rho+ mu- anti-nu_mu PHOTOS ISGW2; +# +0.0383 K+ pi- PHSP; +0.0212 K0 pi0 PHSP; +0.0071 K0 eta PHSP; +0.0172 K0 eta' PHSP; +0.0210 omega K0 SVS; +0.0190 K*0 eta SVS; +0.0020 K*0 eta' SVS; +0.0730 a_1- K+ SVS; +0.0610 K*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0146 K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0110 K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# the Dalitz mode below includes K*(892)0 pi0, K*(892)+ pi-, and K+ rho(770)- resonances +0.1390 K+ pi- pi0 D_DALITZ; +0.0085 K*0R pi0 SVS; +0.0107 K_1+ pi- SVS; +0.0071 K_10 pi0 SVS; +# the Dalitz mode below includes K*(892)+ pi- and K0 rho(770)0 resonances +0.0540 K0 pi+ pi- D_DALITZ; +0.0078 K0 pi0 pi0 PHSP; +0.0225 K*0 pi+ pi- PHSP; +0.0116 K*0 pi0 pi0 PHSP; +0.0100 K*+ pi- pi0 PHSP; +0.0068 K+ rho- pi0 PHSP; +0.0060 K+ pi- rho0 PHSP; +0.0303 K+ pi- omega PHSP; +0.0100 K+ pi- eta PHSP; +0.0075 K+ pi- eta' PHSP; +0.0174 K+ pi- pi+ pi- PHSP; +0.0085 K0 pi+ pi- pi0 PHSP; +# +# K+ pi- pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to +# have everything add to 1 and get enough neutral kaons: +0.00575 K+ pi- pi0 pi0 PHSP; +# +0.0200 K0 pi0 pi0 pi0 PHSP; +0.0038 K+ pi- pi+ pi- pi0 PHSP; +0.0038 K+ pi- pi0 pi0 pi0 PHSP; +0.0058 K0 pi+ pi- pi+ pi- PHSP; +# +0.0638 K0 pi- pi+ pi0 pi0 PHSP; +0.0192 K0 pi- pi+ pi0 pi0 pi0 PHSP; +# +0.0086 phi K0 SVS; +0.0051 K0 K+ K- PHSP; +0.0008 K_S0 K_S0 K_S0 PHSP; +0.0043 K+ K- PHSP; +0.0006 K_S0 K_S0 PHSP; +0.0006 K_L0 K_L0 PHSP; +0.0004 anti-K*0 K0 SVS; +0.0008 K*0 anti-K0 SVS; +0.0018 K*+ K- SVS; +0.0035 K*- K+ SVS; +0.0014 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0007 phi pi0 SVS; +0.0011 phi pi+ pi- PHSP; +0.0025 K+ K- pi+ pi- PHSP; +0.0030 K+ K- pi0 pi0 PHSP; +0.0015 anti-K0 K0 pi+ pi- PHSP; +0.0015 anti-K0 K0 pi0 pi0 PHSP; +# +0.0015 pi+ pi- PHSP; +0.0008 pi0 pi0 PHSP; +0.0010 eta pi0 PHSP; +0.0010 eta' pi0 PHSP; +0.0010 eta eta PHSP; +0.0040 rho+ pi- SVS; +0.0040 rho- pi+ SVS; +0.0020 rho0 pi0 SVS; +0.0160 pi+ pi- pi0 PHSP; +0.0010 pi0 pi0 pi0 PHSP; +0.0073 pi+ pi+ pi- pi- PHSP; +0.0050 pi+ pi- pi0 pi0 PHSP; +0.0177 pi+ pi- pi+ pi- pi0 PHSP; +0.0060 pi+ pi- pi0 pi0 pi0 PHSP; +# +# Doubly Cabibbo suppressed decays: +0.00015 pi+ K- PHSP; +0.0005 pi+ K- pi0 PHSP; +Enddecay +# +Decay D_s+ +0.0200 phi e+ nu_e PHOTOS ISGW2; +0.0260 eta e+ nu_e PHOTOS ISGW2; +0.0089 eta' e+ nu_e PHOTOS ISGW2; +0.0027 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0010 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0200 phi mu+ nu_mu PHOTOS ISGW2; +0.0260 eta mu+ nu_mu PHOTOS ISGW2; +0.0089 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0010 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0046 mu+ nu_mu PHOTOS SLN; +0.0700 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +# +Decay D_s- +0.0200 phi e- anti-nu_e PHOTOS ISGW2; +0.0260 eta e- anti-nu_e PHOTOS ISGW2; +0.0089 eta' e- anti-nu_e PHOTOS ISGW2; +0.0027 K0 e- anti-nu_e PHOTOS ISGW2; +0.0010 K*0 e- anti-nu_e PHOTOS ISGW2; +0.0200 phi mu- anti-nu_mu PHOTOS ISGW2; +0.0260 eta mu- anti-nu_mu PHOTOS ISGW2; +0.0089 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.0027 K0 mu- anti-nu_mu PHOTOS ISGW2; +0.0010 K*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0046 mu- anti-nu_mu PHOTOS SLN; +0.0700 tau- anti-nu_tau SLN; +0.0360 phi pi- SVS; +0.0170 eta pi- PHSP; +0.0390 eta' pi- PHSP; +0.0028 omega pi- SVS; +0.0004 rho0 pi- SVS; +0.0020 rho- pi0 SVS; +0.0010 pi- pi0 PHSP; +0.0180 f_0 pi- PHSP; +0.0023 f_2 pi- PHSP; +0.0670 phi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho- eta SVS; +0.1010 rho- eta' SVS; +0.0040 pi- pi- pi+ PHSP; +0.0040 pi- pi0 pi0 PHSP; +0.0230 phi pi- pi0 PHSP; +0.0230 eta pi- pi0 PHSP; +0.0230 eta' pi- pi0 PHSP; +0.0118 phi pi- pi- pi+ PHSP; +0.0100 phi pi- pi0 pi0 PHSP; +0.0100 eta pi- pi- pi+ PHSP; +0.0100 eta pi- pi0 pi0 PHSP; +# +0.0360 K0 K- PHSP; +0.0330 K*0 K- SVS; +0.0430 K*- K0 SVS; +0.0580 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 K0 K- pi0 PHSP; +0.0120 K*0 K- pi0 PHSP; +0.0120 K*- K0 pi0 PHSP; +0.0139 K*0 K*- pi0 PHSP; +# +0.0090 K+ K- pi- PHSP; +0.0050 K0 K- pi0 PHSP; +0.0020 K0 K- pi+ pi- PHSP; +0.0020 K0 K- pi0 pi0 PHSP; +0.0083 K- K+ pi- pi+ pi- PHSP; +0.0003 phi K- SVS; +0.0002 eta K- PHSP; +0.0002 eta' K- PHSP; +0.0002 eta K- pi0 PHSP; +0.0002 eta K- pi+ pi- PHSP; +0.0002 eta' K- pi0 PHSP; +0.0002 eta' K- pi+ pi- PHSP; +0.0002 K- K- K+ PHSP; +0.0040 anti-K0 pi- PHSP; +0.0015 rho- anti-K0 SVS; +0.0015 rho0 K- SVS; +0.0010 anti-K0 pi- pi0 PHSP; +0.0025 a_1- anti-K0 SVS; +0.0065 anti-K*0 pi- SVS; +0.0150 anti-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 anti-K*0 pi- pi0 PHSP; +Enddecay +# +# D** +# +Decay D_0*+ +0.3333 D+ pi0 PHSP; +0.6667 D0 pi+ PHSP; +Enddecay +Decay D_0*- +0.3333 D- pi0 PHSP; +0.6667 anti-D0 pi- PHSP; +Enddecay +Decay D_0*0 +0.3333 D0 pi0 PHSP; +0.6667 D+ pi- PHSP; +Enddecay +Decay anti-D_0*0 +0.3333 anti-D0 pi0 PHSP; +0.6667 D- pi+ PHSP; +Enddecay +# +Decay D_1+ +0.3333 D*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 D*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay D_1- +0.3333 D*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 anti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay D_10 +0.3333 D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 D*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay anti-D_10 +0.3333 anti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 D*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay D'_1+ +0.3333 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D'_1- +0.3333 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D'_10 +0.6667 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay anti-D'_10 +0.3333 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay D_2*+ +0.1030 D*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 D*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 D+ pi0 TSS; +0.4590 D0 pi+ TSS; +Enddecay +Decay D_2*- +0.1030 D*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 anti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 D- pi0 TSS; +0.4590 anti-D0 pi- TSS; +Enddecay +Decay D_2*0 +0.2090 D*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1030 D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 D0 pi0 TSS; +0.4590 D+ pi- TSS; +Enddecay +Decay anti-D_2*0 +0.1030 anti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 D*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 anti-D0 pi0 TSS; +0.4590 D- pi+ TSS; +Enddecay +# +# D_s ** +# +Decay D_s0*+ +0.5000 D+ K0 PHSP; +0.5000 D0 K+ PHSP; +Enddecay +Decay D_s0*- +0.5000 D- anti-K0 PHSP; +0.5000 anti-D0 K- PHSP; +Enddecay +Decay D_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay +Decay D_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay +Decay D'_s1+ +0.5000 D*+ K0 PHSP; +0.5000 D*0 K+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay +Decay D'_s1- +0.5000 D*- anti-K0 PHSP; +0.5000 anti-D*0 K- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay +Decay D_s2*+ +0.0500 D*+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0500 D*0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.4300 D+ K0 TSS; +0.4700 D0 K+ TSS; +Enddecay +Decay D_s2*- +0.0500 D*- anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0500 anti-D*0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.4300 D- anti-K0 TSS; +0.4700 anti-D0 K- TSS; +Enddecay +# +# +# Charm Mesons: Radially Excited States +# +Decay D(2S)0 +0.6667 D*+ pi- SVS; +0.3333 D*0 pi0 SVS; +Enddecay +Decay anti-D(2S)0 +0.3333 anti-D*0 pi0 SVS; +0.6667 D*- pi+ SVS; +Enddecay +Decay D(2S)+ +0.3333 D*+ pi0 SVS; +0.6667 D*0 pi+ SVS; +Enddecay +Decay D(2S)- +0.3333 D*- pi0 SVS; +0.6667 anti-D*0 pi- SVS; +Enddecay +Decay D*(2S)0 +0.3333 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1667 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1667 D0 pi0 VSS; +0.3333 D+ pi- VSS; +Enddecay +Decay anti-D*(2S)0 +0.1667 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1667 anti-D0 pi0 VSS; +0.3333 D- pi+ VSS; +Enddecay +Decay D*(2S)+ +0.1667 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1667 D+ pi0 VSS; +0.3333 D0 pi+ VSS; +Enddecay +Decay D*(2S)- +0.1667 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1667 D- pi0 VSS; +0.3333 anti-D0 pi- VSS; +Enddecay +# +# +# Strange Mesons +# +# +Decay K_S0 +0.6861 pi+ pi- PHSP; +0.3139 pi0 pi0 PHSP; +Enddecay +# +# K_L0 is decayed in GEANT +# +Decay K0 +0.500 K_L0 PHSP; +0.500 K_S0 PHSP; +Enddecay +Decay anti-K0 +0.500 K_L0 PHSP; +0.500 K_S0 PHSP; +Enddecay +# +Decay K*0 +0.6657 K+ pi- VSS; +0.3323 K0 pi0 VSS; +0.0020 K0 gamma VSP_PWAVE; +Enddecay +Decay anti-K*0 +0.6657 K- pi+ VSS; +0.3323 anti-K0 pi0 VSS; +0.0020 anti-K0 gamma VSP_PWAVE; +Enddecay +Decay K*+ +0.6660 K0 pi+ VSS; +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +Enddecay +Decay K*- +0.6660 anti-K0 pi- VSS; +0.3330 K- pi0 VSS; +0.0010 K- gamma VSP_PWAVE; +Enddecay +# +# The decays below are for particle aliases and used when +# generating CP violating decays that depends on the decay +# of the neutral K* +# +Decay K*L +1.0000 pi0 K_L0 VSS; +Enddecay +Decay K*S +1.0000 pi0 K_S0 VSS; +Enddecay +Decay K*0T +1.0000 pi- K+ VSS; +Enddecay +Decay anti-K*0T +1.0000 pi+ K- VSS; +Enddecay +# +# +Decay K_0*+ +0.6667 K0 pi+ PHSP; +0.3333 K+ pi0 PHSP; +Enddecay +# +Decay K_0*- +0.6667 anti-K0 pi- PHSP; +0.3333 K- pi0 PHSP; +Enddecay +# +Decay K_0*0 +0.6667 K+ pi- PHSP; +0.3333 K0 pi0 PHSP; +Enddecay +# +Decay K_0*0N +1.0000 K0 pi0 PHSP; +Enddecay +# +Decay anti-K_0*0 +0.6667 K- pi+ PHSP; +0.3333 anti-K0 pi0 PHSP; +Enddecay +# +Decay anti-K_0*0N +1.0000 anti-K0 pi0 PHSP; +Enddecay +# +Decay K_10 +0.2800 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1067 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0533 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +#To large masses can cause infinit loops +0.1100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K0 pi+ pi- PHSP; +0.1244 K+ pi- pi0 PHSP; +0.0412 K0 pi0 pi0 PHSP; +Enddecay +Decay anti-K_10 +0.2800 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1067 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0533 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +#To large masses can cause infinit loops +0.1100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 anti-K0 pi+ pi- PHSP; +0.1244 K- pi+ pi0 PHSP; +0.0412 anti-K0 pi0 pi0 PHSP; +Enddecay +# +Decay K_1+ +0.2800 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1067 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0533 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +#To large masses can cause infinit loops +0.1100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi+ pi- PHSP; +0.1244 K0 pi+ pi0 PHSP; +0.0412 K+ pi0 pi0 PHSP; +Enddecay +Decay K_1- +0.2800 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1067 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0533 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +#To large masses can cause infinit loops +0.1100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +0.1244 anti-K0 pi- pi0 PHSP; +0.0412 K- pi0 pi0 PHSP; +Enddecay +# +Decay K'_1+ +0.6300 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0133 K+ pi+ pi- PHSP; +0.0067 K+ pi0 pi0 PHSP; +Enddecay +Decay K'_1- +0.6300 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0133 K- pi+ pi- PHSP; +0.0067 K- pi0 pi0 PHSP; +Enddecay +Decay K'_10 +0.6300 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0133 K0 pi+ pi- PHSP; +0.0067 K0 pi0 pi0 PHSP; +Enddecay +Decay anti-K'_10 +0.6300 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0200 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0133 anti-K0 pi+ pi- PHSP; +0.0067 anti-K0 pi0 pi0 PHSP; +Enddecay +# +Decay K_2*+ +0.3310 K0 pi+ TSS; +0.1660 K+ pi0 TSS; +0.1680 K*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0840 K*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0540 K*0 pi+ pi0 PHSP; +0.0540 K*+ pi+ pi- PHSP; +0.0540 K*+ pi0 pi0 PHSP; +0.0590 rho+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0300 rho0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +Decay K_2*- +0.3310 anti-K0 pi- TSS; +0.1660 K- pi0 TSS; +0.1680 anti-K*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0840 K*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0540 anti-K*0 pi- pi0 PHSP; +0.0540 K*- pi+ pi- PHSP; +0.0540 K*- pi0 pi0 PHSP; +0.0590 rho- K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0300 rho0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +Decay K_2*0 +0.3310 K+ pi- TSS; +0.1660 K0 pi0 TSS; +0.1680 K*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0840 K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0540 K*0 pi+ pi- PHSP; +0.0540 K*0 pi0 pi0 PHSP; +0.0540 K*+ pi- pi0 PHSP; +0.0590 rho- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0300 rho0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +Decay anti-K_2*0 +0.3310 K- pi+ TSS; +0.1660 anti-K0 pi0 TSS; +0.1680 K*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0840 anti-K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0540 anti-K*0 pi+ pi- PHSP; +0.0540 anti-K*0 pi0 pi0 PHSP; +0.0540 K*- pi+ pi0 PHSP; +0.0590 rho+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.0300 rho0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay + + + + +# Decay K*(1410) +Decay K'*0 +0.0467 K+ pi- VSS; +0.0233 K0 pi0 VSS; +0.5760 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2880 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0440 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0220 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay anti-K'*0 +0.0467 K- pi+ VSS; +0.0233 anti-K0 pi0 VSS; +0.5760 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2880 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0440 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0220 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay K'*+ +0.0467 K0 pi+ VSS; +0.0233 K+ pi0 VSS; +0.5760 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2880 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0440 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0220 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay K'*- +0.0467 anti-K0 pi- VSS; +0.0233 K- pi0 VSS; +0.5760 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2880 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0440 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0220 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# + + +# Decay K*(1680) +Decay K''*0 +0.2580 K+ pi- VSS; +0.1290 K0 pi0 VSS; +0.2093 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1047 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1993 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0997 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay anti-K''*0 +0.2580 K- pi+ VSS; +0.1290 anti-K0 pi0 VSS; +0.2093 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1047 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1993 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0997 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay K''*+ +0.2580 K0 pi+ VSS; +0.1290 K+ pi0 VSS; +0.2093 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1047 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1993 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0997 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay K''*- +0.2580 anti-K0 pi- VSS; +0.1290 K- pi0 VSS; +0.2093 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1047 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1993 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0997 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Xsd +1.00000 d anti-s JETSET 11; +Enddecay + +Decay anti-Xsd +1.00000 anti-d s JETSET 11; +Enddecay + +Decay Xsu +1.00000 u anti-s JETSET 11; +Enddecay + +Decay anti-Xsu +1.00000 anti-u s JETSET 11; +Enddecay + +# Xss decays can be uncommented when Jst74/lucomp.F recognizes Xss +Decay Xss +1.00000 s anti-s JETSET 11; +Enddecay + +Decay anti-Xss +1.00000 anti-s s JETSET 11; +Enddecay + +# +# Light Mesons +# +Decay pi0 +0.9880 gamma gamma PHSP; +0.0120 e+ e- gamma PI0_DALITZ; +Enddecay +# +Decay eta +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0007 gamma gamma pi0 PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay +# +Decay rho0 +1.000 pi+ pi- VSS; +Enddecay +Decay rho+ +1.000 pi+ pi0 VSS; +Enddecay +Decay rho- +1.000 pi- pi0 VSS; +Enddecay +# +Decay omega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0850 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; +0.0008 eta gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0004 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay +# +Decay eta' +0.4370 pi+ pi- eta PHSP; +0.2080 pi0 pi0 eta PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0302 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay +# +Decay phi +0.4910 K+ K- VSS; +0.3410 K_L0 K_S0 VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +0.0121 eta gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5080 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay a_10 +0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay a_2+ +0.3500 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.3500 rho+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1440 eta pi+ TSS; +0.1050 omega pi+ pi0 PHSP; +0.0480 anti-K0 K+ TSS; +0.0030 pi+ gamma PHSP; +Enddecay +Decay a_2- +0.3500 rho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.3500 rho- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1440 eta pi- TSS; +0.1050 omega pi- pi0 PHSP; +0.0480 anti-K0 K- TSS; +0.0030 pi- gamma PHSP; +Enddecay +Decay a_20 +0.3500 rho+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.3500 rho- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1440 eta pi0 TSS; +0.1050 omega pi+ pi- PHSP; +0.0240 K+ K- TSS; +0.0120 K_L0 K_L0 TSS; +0.0120 K_S0 K_S0 TSS; +0.0030 pi0 gamma PHSP; +Enddecay +# +Decay b_1+ +0.9984 omega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0016 pi+ gamma VSP_PWAVE; +Enddecay +Decay b_1- +0.9984 omega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0016 pi- gamma VSP_PWAVE; +Enddecay +Decay b_10 +0.9984 omega pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0016 pi0 gamma VSP_PWAVE; +Enddecay +# +Decay a_00 +0.9000 eta pi0 PHSP; +0.0500 K+ K- PHSP; +0.0250 K_S0 K_S0 PHSP; +0.0250 K_L0 K_L0 PHSP; +Enddecay +Decay a_0+ +0.9000 eta pi+ PHSP; +0.1000 anti-K0 K+ PHSP; +Enddecay +Decay a_0- +0.9000 eta pi- PHSP; +0.1000 K0 K- PHSP; +Enddecay +# +Decay f_0 +0.5200 pi+ pi- PHSP; +0.2600 pi0 pi0 PHSP; +0.1100 K+ K- PHSP; +0.0550 K_S0 K_S0 PHSP; +0.0550 K_L0 K_L0 PHSP; +Enddecay +# +Decay f'_0 +0.5200 pi+ pi- PHSP; +0.2600 pi0 pi0 PHSP; +0.0750 pi+ pi+ pi- pi- PHSP; +0.0750 pi+ pi- pi0 pi0 PHSP; +0.0350 K+ K- PHSP; +0.0175 K_S0 K_S0 PHSP; +0.0175 K_L0 K_L0 PHSP; +Enddecay +# +Decay f_1 +0.1500 rho0 pi+ pi- PHSP; +0.0500 rho0 pi0 pi0 PHSP; +0.0500 rho+ pi- pi0 PHSP; +0.0500 rho- pi+ pi0 PHSP; +0.1400 a_00 pi0 VSS; +0.1400 a_0+ pi- VSS; +0.1400 a_0- pi+ VSS; +0.0700 eta pi+ pi- PHSP; +0.0300 eta pi0 pi0 PHSP; +0.0300 K+ K- pi0 PHSP; +0.0200 K0 anti-K0 pi0 PHSP; +0.0300 anti-K0 K+ pi- PHSP; +0.0300 K0 K- pi+ PHSP; +0.0700 gamma rho0 PHSP; +Enddecay +# +Decay f'_1 +0.2500 K+ K- pi0 PHSP; +0.2500 K0 anti-K0 pi0 PHSP; +0.2500 anti-K0 K+ pi- PHSP; +0.2500 K0 K- pi+ PHSP; +Enddecay +# +Decay f_2 +0.5650 pi+ pi- TSS; +0.2820 pi0 pi0 TSS; +0.0280 pi+ pi- pi+ pi- PHSP; +0.0720 pi+ pi- pi0 pi0 PHSP; +0.0030 pi0 pi0 pi0 pi0 PHSP; +0.0230 K+ K- TSS; +0.0115 K_S0 K_S0 TSS; +0.0115 K_L0 K_L0 TSS; +0.0040 eta eta TSS; +Enddecay +# +Decay f_0(1500) +0.0500 eta eta' PHSP; +0.1500 eta eta PHSP; +0.1000 pi0 pi0 pi0 pi0 PHSP; +0.2500 pi+ pi- pi+ pi- PHSP; +0.1000 pi+ pi- PHSP; +0.0500 pi0 pi0 PHSP; +0.1000 K+ K- PHSP; +0.1000 K_S0 K_S0 PHSP; +0.1000 K_L0 K_L0 PHSP; +Enddecay +# +Decay f'_2 +0.4444 K+ K- TSS; +0.2222 K_S0 K_S0 TSS; +0.2222 K_L0 K_L0 TSS; +0.1030 eta eta TSS; +0.0055 pi+ pi- TSS; +0.0027 pi0 pi0 TSS; +Enddecay +# +Decay h_1 +0.3333 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3334 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay h'_1 +0.2500 K*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2500 K*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2500 anti-K*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2500 K*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay rho(2S)+ +0.4000 pi+ pi0 PHSP; +0.4000 pi+ pi+ pi- pi0 PHSP; +0.2000 pi+ pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)- +0.4000 pi- pi0 PHSP; +0.4000 pi- pi+ pi- pi0 PHSP; +0.2000 pi- pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)0 +0.4000 pi+ pi- PHSP; +0.3500 pi+ pi- pi+ pi- PHSP; +0.1500 pi+ pi- pi0 pi0 PHSP; +0.1000 pi0 pi0 pi0 pi0 PHSP; +Enddecay +# +# +# cc= mesons +# +Decay eta_c +0.0012 p+ anti-p- PHSP; +0.0071 phi phi PHSP; +0.0087 rho0 rho0 PHSP; +0.0173 rho+ rho- PHSP; +0.0120 pi+ pi- pi+ pi- PHSP; +0.0210 K+ K- K+ K- PHSP; +0.0200 K+ K- pi+ pi- PHSP; +0.0327 eta pi+ pi- PHSP; +0.0163 eta pi0 pi0 PHSP; +0.0273 eta' pi+ pi- PHSP; +0.0137 eta' pi0 pi0 PHSP; +0.0092 pi0 K+ K- PHSP; +0.0184 K+ anti-K0 pi- PHSP; +0.0184 K- K0 pi+ PHSP; +0.0092 K0 anti-K0 pi0 PHSP; +0.0043 K*+ K*- PHSP; +0.0042 K*0 anti-K*0 PHSP; +0.0100 K*0 K- pi+ PHSP; +0.0100 anti-K*0 K+ pi- PHSP; +0.7390 rndmflav anti-rndmflav JETSET 12; +Enddecay +# +Decay J/psi +0.0590 e+ e- PHOTOS VLL; +0.0590 mu+ mu- PHOTOS VLL; +0.0042 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0043 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0043 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0036 a_20 rho0 PHSP; +0.0036 a_2+ rho- PHSP; +0.0036 a_2- rho+ PHSP; +0.0130 gamma eta_c PHSP; +0.8454 rndmflav anti-rndmflav JETSET 12; +Enddecay +# +Decay psi(2S) +0.0100 e+ e- PHOTOS VLL; +0.0100 mu+ mu- PHOTOS VLL; +0.3100 J/psi pi+ pi- VVPIPI; +0.1820 J/psi pi0 pi0 VVPIPI; +0.0270 J/psi eta VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0010 J/psi pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0930 gamma chi_c0 PHSP; +0.0870 gamma chi_c1 PHSP; +0.0780 gamma chi_c2 PHSP; +0.0028 gamma eta_c PHSP; +0.1992 rndmflav anti-rndmflav JETSET 12; +Enddecay + +Decay psi(4040) +0.000014 e+ e- PHOTOS VLL; +0.000014 mu+ mu- PHOTOS VLL; +0.000005 tau+ tau- VLL; +0.0021 D0 anti-D0 VSS; +0.0009 D+ D- VSS; +0.1679 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1679 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1815 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1815 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1597 D*0 anti-D*0 PHSP; +0.0982 D*+ D*- PHSP; +0.0000 D0 anti-D0 pi0 PHSP; +0.0000 D+ D- pi0 PHSP; +0.0000 D0 D- pi+ PHSP; +0.0000 anti-D0 D+ pi- PHSP; +0.0000 D*+ D- pi0 PHSP; +0.0000 D*- D+ pi0 PHSP; +0.0000 D*+ anti-D0 pi- PHSP; +0.0000 D*- D0 pi+ PHSP; +0.0000 D+ anti-D*0 pi- PHSP; +0.0000 D- D*0 pi+ PHSP; +0.0403 D_s+ D_s- VSS; +Enddecay +# +Decay psi(4160) +0.00001 e+ e- PHOTOS VLL; +0.00001 mu+ mu- PHOTOS VLL; +0.000006 tau+ tau- VLL; +0.0397 D0 anti-D0 VSS; +0.0387 D+ D- VSS; +0.0520 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0520 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0515 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0515 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.29863 D*0 anti-D*0 PHSP; +0.3082 D*+ D*- PHSP; +0.0000 D0 anti-D0 pi0 PHSP; +0.0000 D+ D- pi0 PHSP; +0.0000 D0 D- pi+ PHSP; +0.0000 anti-D0 D+ pi- PHSP; +0.0000 D*+ D- pi0 PHSP; +0.0000 D*- D+ pi0 PHSP; +0.0000 D*+ anti-D0 pi- PHSP; +0.0000 D*- D0 pi+ PHSP; +0.0000 D+ anti-D*0 pi- PHSP; +0.0000 D- D*0 pi+ PHSP; +0.0100 D_s+ D_s- VSS; +0.0489 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0489 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0000 D_s+ D_s- pi0 PHSP; +Enddecay +# +Decay psi(4415) +0.000011 e+ e- PHOTOS VLL; +0.000011 mu+ mu- PHOTOS VLL; +0.000007 tau+ tau- VLL; +0.0244 D0 anti-D0 VSS; +0.0219 D+ D- VSS; +0.0320 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0320 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0343 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0343 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3451 D*0 anti-D*0 PHSP; +0.3539 D*+ D*- PHSP; +0.0000 D0 anti-D0 pi0 PHSP; +0.0000 D+ D- pi0 PHSP; +0.0000 D0 D- pi+ PHSP; +0.0000 anti-D0 D+ pi- PHSP; +0.0000 D*+ D- pi0 PHSP; +0.0000 D*- D+ pi0 PHSP; +0.0000 D*+ anti-D0 pi- PHSP; +0.0000 D*- D0 pi+ PHSP; +0.0000 D+ anti-D*0 pi- PHSP; +0.0000 D- D*0 pi+ PHSP; +0.0118 D_s+ D_s- VSS; +0.0420 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0420 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0263 D_s*+ D_s*- PHSP; +0.0000 D_s+ D_s- pi0 PHSP; +0.0000 D_s*+ D_s- pi0 PHSP; +0.0000 D_s+ D_s*- pi0 PHSP; +0.0000 D_s+ D- anti-K0 PHSP; +0.0000 D_s- D+ anti-K0 PHSP; +0.0000 D0 D_s- K+ PHSP; +0.0000 anti-D0 D_s+ K- PHSP; +Enddecay +# +Decay chi_c0 +0.0066 gamma J/psi PHSP; +0.0050 pi+ pi- PHSP; +0.0200 pi+ pi- pi+ pi- PHSP; +0.0124 pi+ pi- pi+ pi- pi+ pi- PHSP; +0.0160 rho0 pi+ pi- PHSP; +0.0160 rho+ pi- pi0 PHSP; +0.0160 rho- pi+ pi0 PHSP; +0.0059 K+ K- PHSP; +0.0060 anti-K*0 K+ pi- PHSP; +0.0060 K*0 K- pi+ PHSP; +0.0060 K*+ anti-K0 pi- PHSP; +0.0060 K*- K0 pi+ PHSP; +0.0180 pi+ pi- K+ K- PHSP; +0.0018 pi+ pi- p+ anti-p- PHSP; +0.8583 rndmflav anti-rndmflav JETSET 12; +Enddecay +# +Decay chi_c1 +0.2730 J/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +0.0056 pi+ pi- pi+ pi- PHSP; +0.0063 pi+ pi- pi+ pi- pi+ pi- PHSP; +0.0049 pi+ pi- K+ K- PHSP; +0.0039 rho0 pi+ pi- PHSP; +0.0039 rho+ pi- pi0 PHSP; +0.0039 rho- pi+ pi0 PHSP; +0.0016 anti-K*0 K+ pi- PHSP; +0.0016 K*0 K- pi+ PHSP; +0.0016 K*+ anti-K0 pi- PHSP; +0.0016 K*- K0 pi+ PHSP; +0.0014 pi+ pi- p+ anti-p- PHSP; +0.6907 rndmflav anti-rndmflav JETSET 12; +Enddecay + + +# +Decay chi_c2 +0.1350 gamma J/psi PHSP; +0.0015 pi+ pi- TSS; +0.0120 pi+ pi- pi+ pi- PHSP; +0.0092 pi+ pi- pi+ pi- pi+ pi- PHSP; +0.0100 pi+ pi- K+ K- PHSP; +0.0070 rho0 pi+ pi- PHSP; +0.0070 rho+ pi- pi0 PHSP; +0.0070 rho- pi+ pi0 PHSP; +0.0008 K+ K- TSS; +0.0024 anti-K*0 K+ pi- PHSP; +0.0024 K*0 K- pi+ PHSP; +0.0024 K*+ anti-K0 pi- PHSP; +0.0024 K*- K0 pi+ PHSP; +0.0001 p+ anti-p- PHSP; +0.0014 pi+ pi- p+ anti-p- PHSP; +0.7994 rndmflav anti-rndmflav JETSET 12; +Enddecay +# +Decay psi(3770) +0.4260 D+ D- VSS; +0.5740 D0 anti-D0 VSS; +Enddecay +# +# +# bb= Mesons +# +Decay eta_b +1.000 rndmflav anti-rndmflav JETSET 12; +Enddecay +# +Decay Upsilon +0.0256 e+ e- PHOTOS VLL; +0.0256 mu+ mu- PHOTOS VLL; +0.0256 tau+ tau- VLL; +0.01500 d anti-d JETSET 32; +0.04500 u anti-u JETSET 32; +0.01500 s anti-s JETSET 32; +0.04500 c anti-c JETSET 32; +0.77420 g g g JETSET 4; +0.02900 gamma g g JETSET 4; +Enddecay +# +Decay Upsilon(2S) +0.0150 e+ e- PHOTOS VLL; +0.0150 mu+ mu- PHOTOS VLL; +0.0150 tau+ tau- VLL; +0.1850 Upsilon pi+ pi- PHSP; +0.0900 Upsilon pi0 pi0 PHSP; +# V-> gamma S Partial wave (L,S)=(0,1) +0.0430 gamma chi_b0 HELAMP 1. 0. +1. 0.; +# V-> gamma V Partial wave (L,S)=(0,1) +0.0660 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma T Partial wave (L,S)=(0,1) +0.0670 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. + 1. 0. 1.7320508 0. 2.4494897 0.; +0.00500 d anti-d JETSET 32; +0.02000 u anti-u JETSET 32; +0.00500 s anti-s JETSET 32; +0.02000 c anti-c JETSET 32; +0.43800 g g g JETSET 4; +0.01600 gamma g g JETSET 4; +Enddecay +# +Decay Upsilon(3S) +0.0181 e+ e- PHOTOS VLL; +0.0181 mu+ mu- PHOTOS VLL; +0.0150 tau+ tau- VLL; +0.0448 Upsilon pi+ pi- PHSP; +0.0206 Upsilon pi0 pi0 PHSP; +0.0280 Upsilon(2S) pi+ pi- PHSP; +0.0200 Upsilon(2S) pi0 pi0 PHSP; +0.0500 Upsilon(2S) gamma gamma PHSP; +# V-> gamma S Partial wave (L,S)=(0,1) +0.0540 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.; +# V-> gamma V Partial wave (L,S)=(0,1) +0.1140 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma T Partial wave (L,S)=(0,1) +0.1130 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. + 1. 0. 1.7320508 0. 2.4494897 0.; +0.00700 d anti-d JETSET 32; +0.02800 u anti-u JETSET 32; +0.00700 s anti-s JETSET 32; +0.02800 c anti-c JETSET 32; +0.41940 g g g JETSET 4; +0.01500 gamma g g JETSET 4; +Enddecay +# +Decay chi_b0 +# S-> gamma V Partial wave (L,S)=(0,0) +0.0500 gamma Upsilon HELAMP 1. 0. 1. 0.; +0.9500 rndmflav anti-rndmflav JETSET 12; +Enddecay +# +Decay chi_b1 +# V-> gamma V Partial wave (L,S)=(0,1) +0.3500 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +0.6500 g g JETSET 32; +Enddecay +# +Decay chi_b2 +# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. +0.2200 gamma Upsilon PHSP; +#0.2200 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +0.7800 g g JETSET 32; +Enddecay +# +Decay chi_b0(2P) +# S-> gamma V Partial wave (L,S)=(0,0) +0.0090 gamma Upsilon HELAMP 1. 0. 1. 0.; +0.0460 gamma Upsilon(2S) HELAMP 1. 0. 1. 0.; +# S-> gamma V Partial wave (L,S)=(0,0) +0.00150 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0.; +0.94350 g g JETSET 32; +Enddecay +# +Decay chi_b1(2P) +# V-> gamma V Partial wave (L,S)=(0,1) +0.0850 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +0.2100 gamma Upsilon(2S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma V Partial wave (L,S)=(0,1) +0.0097 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma T Partial wave (L,S)=(0,1) +0.0236 gamma Upsilon_2(1D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. + 1. 0. 1.7320508 0. 2.4494897 0.; +0.6717 g g JETSET 32; +Enddecay +# +Decay chi_b2(2P) +# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. +0.0710 gamma Upsilon PHSP; +#0.0710 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +0.1620 gamma Upsilon(2S) PHSP; +#0.1620 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. +0.00023 gamma Upsilon_1(1D) PHSP; +#0.00023 gamma Upsilon_1(1D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +# T -> gamma T Partial wave (L,S)=(0,2) +0.00290 gamma Upsilon_2(1D) PHSP; +#0.00290 gamma Upsilon_2(1D) HELAMP -1. 0. -1.2247449 0. +# -1.2247449 0. -1. 0. +# 1. 0. 1.2247449 0. +# 1.2247449 0. 1. 0.; +# spin 3 not yet in HELAMP. +0.01420 gamma Upsilon_3(1D) JETSET 0; +# T-> gamma 3 Partial wave (L,S)=(0,2) +#0.01420 gamma Upsilon_3(1D) HELAMP 3.8729833 0. 3.1622777 0. +# 2.4494897 0. 1.7320508. 0. 1. 0. +# 1. 0. 1.7320508 0. 2.4494897 0. +# 3.1622777 0. 3.8729833 0.; +0.74967 g g JETSET 32; +Enddecay +# +Decay h_b +1.00000 g g JETSET 32; +Enddecay + +Decay chi_b0(3P) +#see Kwong and Rosner, PRD 38,279 (1988) +# S-> gamma V Partial wave (L,S)=(0,0) +0.01700 gamma Upsilon(3S) HELAMP 1. 0. 1. 0.; +# S-> gamma V Partial wave (L,S)=(0,0) +0.00400 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0.; +0.97900 g g JETSET 32; +Enddecay + +Decay chi_b1(3P) +#see Kwong and Rosner, PRD 38,279 (1988) +# V-> gamma V Partial wave (L,S)=(0,1) +0.15000 gamma Upsilon(3S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma T Partial wave (L,S)=(0,1) +0.03100 gamma Upsilon_2(2D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. + 1. 0. 1.7320508 0. 2.4494897 0.; +# V-> gamma V Partial wave (L,S)=(0,1) +0.01300 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +0.80600 g g JETSET 32; +Enddecay + +Decay chi_b2(3P) +#see Kwong and Rosner, PRD 38,279 (1988) +# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. +0.08700 gamma Upsilon(3S) PHSP; +0.00000 gamma Upsilon(2S) PHSP; +0.00000 gamma Upsilon PHSP; +#0.08700 gamma Upsilon(3S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +#0.00000 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +#0.00000 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +# spin 3 not yet in HELAMP +0.02200 Upsilon_3(2D) gamma PHSP; +# T -> gamma 3 Partial wave (L,S)=(0,2) +#0.02200 gamma Upsilon_3(2D) HELAMP 3.8729833 0. 3.1622777 0. +# 2.4494897 0. 1.7320508. 0. 1. 0. +# 1. 0. 1.7320508 0. 2.4494897 0. +# 3.1622777 0. 3.8729833 0.; +# T -> gamma T Partial wave (L,S)=(0,2) +0.00400 gamma Upsilon_2(2D) PHSP; +#0.00400 gamma Upsilon_2(2D) HELAMP -1. 0. -1.2247449 0. +# -1.2247449 0. -1. 0. +# 1. 0. 1.2247449 0. +# 1.2247449 0. 1. 0.; +# T-> gamma V Partial wave (L,S)=(0,2) +0.00040 gamma Upsilon_1(2D) PHSP; +#0.00040 gamma Upsilon_1(2D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +0.88660 g g JETSET 32; +Enddecay + +Decay Upsilon_1(1D) +#see Kwong and Rosner, PRD 38,279 (1988) +0.00140 Upsilon pi+ pi- PHSP; +0.00070 Upsilon pi0 pi0 PHSP; +# V-> gamma S Partial wave (L,S)=(0,1) +0.60200 gamma chi_b0 HELAMP 1. 0. +1. 0.; +# V-> gamma V Partial wave (L,S)=(0,1) +0.31800 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma T Partial wave (L,S)=(0,1) +0.02600 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. + 1. 0. 1.7320508 0. 2.4494897 0.; +0.05190 g g g JETSET 4; +Enddecay + +Decay Upsilon_2(1D) +#see Kwong and Rosner, PRD 38,279 (1988) +0.00140 Upsilon pi+ pi- PHSP; +0.00070 Upsilon pi0 pi0 PHSP; +# T-> gamma T Partial wave (L,S)=(0,2) +0.20300 gamma chi_b2 PHSP; +#0.20300 gamma chi_b2 HELAMP -1. 0. -1.2247449 0. +# -1.2247449 0. -1. 0. +# 1. 0. 1.2247449 0. +# 1.2247449 0. 1. 0.; +# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. +0.78500 gamma chi_b1 PHSP; +#0.78500 gamma chi_b1 HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +0.00990 g g g JETSET 4; +Enddecay + +Decay Upsilon_3(1D) +#see Kwong and Rosner, PRD 38,279 (1988) +0.00200 Upsilon pi+ pi- PHSP; +0.00100 Upsilon pi0 pi0 PHSP; +0.95400 chi_b2 gamma PHSP; +0.04300 g g g JETSET 4; +Enddecay + +Decay Upsilon_1(2D) +#see Kwong and Rosner, PRD 38,279 (1988) +0.00000 Upsilon pi+ pi- PHSP; +0.00000 Upsilon pi0 pi0 PHSP; +0.00000 Upsilon(2S) pi+ pi- PHSP; +0.00000 Upsilon(2S) pi0 pi0 PHSP; +# V-> gamma S Partial wave (L,S)=(0,1) +0.51000 gamma chi_b0(2P) HELAMP 1. 0. +1. 0.; +# V-> gamma V Partial wave (L,S)=(0,1) +0.26000 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; +# V-> gamma T Partial wave (L,S)=(0,1) +0.01400 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. + 1. 0. 1.7320508 0. 2.4494897 0.; +0.21600 g g g JETSET 4; +Enddecay + +Decay Upsilon_2(2D) +#see Kwong and Rosner, PRD 38,279 (1988) +0.00000 Upsilon pi+ pi- PHSP; +0.00000 Upsilon pi0 pi0 PHSP; +0.00000 Upsilon(2S) pi+ pi- PHSP; +0.00000 Upsilon(2S) pi0 pi0 PHSP; +# T-> gamma T Partial wave (L,S)=(0,2) +0.04000 gamma chi_b2(2P) PHSP; +#0.04000 gamma chi_b2(2P) HELAMP -1. 0. -1.2247449 0. +# -1.2247449 0. -1. 0. +# 1. 0. 1.2247449 0. +# 1.2247449 0. 1. 0.; +# T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. +0.13000 gamma chi_b1(2P) PHSP; +#0.13000 gamma chi_b1(2P) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. +# 2.4494897 0. 1.7320508 0. 1. 0.; +0.83000 g g g JETSET 4; +Enddecay + +Decay Upsilon_3(2D) +#see Kwong and Rosner, PRD 38,279 (1988) +0.00000 Upsilon pi+ pi- PHSP; +0.00000 Upsilon pi0 pi0 PHSP; +0.00000 Upsilon(2S) pi+ pi- PHSP; +0.00000 Upsilon(2S) pi0 pi0 PHSP; +0.72000 chi_b2(2P) gamma PHSP; +0.28000 g g g JETSET 4; +Enddecay + +Decay h_b(2P) +1.00000 g g JETSET 32; +Enddecay +Decay h_b(3P) +1.00000 g g JETSET 32; +Enddecay +Decay eta_b2(1D) +1.00000 g g JETSET 32; +Enddecay +Decay eta_b2(2D) +1.00000 g g JETSET 32; +Enddecay +# +# Charm Baryons +# +Decay Lambda_c+ +0.01800 e+ nu_e Lambda0 JETSET 42; +0.00500 e+ nu_e Sigma0 JETSET 42; +0.00500 e+ nu_e Sigma*0 JETSET 42; +0.00300 e+ nu_e n0 JETSET 42; +0.00200 e+ nu_e Delta0 JETSET 42; +0.00600 e+ nu_e p+ pi- JETSET 42; +0.00600 e+ nu_e n0 pi0 JETSET 42; +0.01800 mu+ nu_mu Lambda0 JETSET 42; +0.00500 mu+ nu_mu Sigma0 JETSET 42; +0.00500 mu+ nu_mu Sigma*0 JETSET 42; +0.00300 mu+ nu_mu n0 JETSET 42; +0.00200 mu+ nu_mu Delta0 JETSET 42; +0.00600 mu+ nu_mu p+ pi- JETSET 42; +0.00600 mu+ nu_mu n0 pi0 JETSET 42; +0.00660 Delta++ K- JETSET 0; +0.02500 Delta++ K*- JETSET 0; +0.02300 p+ anti-K0 JETSET 0; +0.04000 p+ anti-K*0 JETSET 0; +0.00500 Delta+ anti-K0 JETSET 0; +0.00500 Delta+ anti-K*0 JETSET 0; +0.00580 Lambda0 pi+ JETSET 0; +0.00500 Lambda0 rho+ JETSET 0; +0.00550 Sigma0 pi+ JETSET 0; +0.00400 Sigma0 rho+ JETSET 0; +0.00400 Sigma*0 pi+ JETSET 0; +0.00400 Sigma*0 rho+ JETSET 0; +0.00400 Sigma+ pi0 JETSET 0; +0.00200 Sigma+ eta JETSET 0; +0.00200 Sigma+ eta' JETSET 0; +0.00400 Sigma+ rho0 JETSET 0; +0.00400 Sigma+ omega JETSET 0; +0.00300 Sigma*+ pi0 JETSET 0; +0.00200 Sigma*+ eta JETSET 0; +0.00300 Sigma*+ rho0 JETSET 0; +0.00300 Sigma*+ omega JETSET 0; +0.00200 Xi0 K+ JETSET 0; +0.00200 Xi0 K*+ JETSET 0; +0.00200 Xi*0 K+ JETSET 0; +0.00100 Delta++ pi- JETSET 0; +0.00100 Delta++ rho- JETSET 0; +0.00200 p+ pi0 JETSET 0; +0.00100 p+ eta JETSET 0; +0.00100 p+ eta' JETSET 0; +0.00200 p+ rho0 JETSET 0; +0.00200 p+ omega JETSET 0; +0.00130 p+ phi JETSET 0; +0.00180 p+ f_0 JETSET 0; +0.00100 Delta+ pi0 JETSET 0; +0.00100 Delta+ eta JETSET 0; +0.00100 Delta+ eta' JETSET 0; +0.00100 Delta+ rho0 JETSET 0; +0.00100 Delta+ omega JETSET 0; +0.00300 n0 pi+ JETSET 0; +0.00300 n0 rho+ JETSET 0; +0.00300 Delta0 pi+ JETSET 0; +0.00300 Delta0 rho+ JETSET 0; +0.00500 Lambda0 K+ JETSET 0; +0.00500 Lambda0 K*+ JETSET 0; +0.00200 Sigma0 K+ JETSET 0; +0.00200 Sigma0 K*+ JETSET 0; +0.00100 Sigma*0 K+ JETSET 0; +0.00100 Sigma*0 K*+ JETSET 0; +0.00200 Sigma+ K0 JETSET 0; +0.00200 Sigma+ K*0 JETSET 0; +0.00100 Sigma*+ K0 JETSET 0; +0.00100 Sigma*+ K*0 JETSET 0; +0.13000 u anti-d d su_0 JETSET 13; +0.05700 u anti-d d su_1 JETSET 13; +0.03500 u anti-s d su_0 JETSET 13; +0.03500 u anti-d d ud_0 JETSET 13; +0.09500 s uu_1 JETSET 13; +0.14000 u su_0 JETSET 13; +0.14000 u su_1 JETSET 13; +0.03000 d uu_1 JETSET 13; +0.01500 u ud_0 JETSET 13; +0.01500 u ud_1 JETSET 13; +Enddecay +CDecay anti-Lambda_c- +# +Decay Xi_c0 +1.000 JETSET 84; +Enddecay +Decay anti-Xi_c0 +1.000 JETSET 84; +Enddecay +# +Decay c-hadron +0.08000 e+ nu_e s specflav JETSET 42; +0.08000 mu+ nu_mu s specflav JETSET 42; +0.76000 u anti-d s specflav JETSET 11; +0.08000 u anti-s s specflav JETSET 11; +Enddecay +CDecay anti-c-hadron +# +Decay Sigma_c0 +1.0000 Lambda_c+ pi- PHSP; +Enddecay +Decay anti-Sigma_c0 +1.0000 anti-Lambda_c- pi+ PHSP; +Enddecay +# +Decay Sigma_c+ +1.0000 Lambda_c+ pi0 PHSP; +Enddecay +Decay anti-Sigma_c- +1.0000 anti-Lambda_c- pi0 PHSP; +Enddecay +# +Decay Xi_c+ +1.000 JETSET 84; +Enddecay +Decay anti-Xi_c- +1.000 JETSET 84; +Enddecay +# +Decay Sigma_c++ +1.0000 Lambda_c+ pi+ PHSP; +Enddecay +Decay anti-Sigma_c-- +1.0000 anti-Lambda_c- pi- PHSP; +Enddecay +# +Decay Xi'_c+ +0.1000 Lambda0 K- pi+ pi+ PHSP; +0.0800 Sigma0 K- pi+ pi+ PHSP; +0.8200 gamma Xi_c+ PHSP; +Enddecay +Decay anti-Xi'_c- +0.1000 anti-Lambda0 K+ pi- pi- PHSP; +0.0800 anti-Sigma0 K+ pi- pi- PHSP; +0.8200 gamma anti-Xi_c- PHSP; +Enddecay +# +Decay Xi'_c0 +1.0000 gamma Xi_c0 PHSP; +Enddecay +Decay anti-Xi'_c0 +1.0000 gamma anti-Xi_c0 PHSP; +Enddecay +# +# Light Baryons +# +Decay Lambda0 +0.6390 p+ pi- PHSP; +0.3580 n0 pi0 PHSP; +0.0018 n0 gamma PHSP; +0.0005 p+ pi- gamma PHSP; +0.0006 p+ e- anti-nu_e PHOTOS PHSP; +0.0001 p+ mu- anti-nu_mu PHOTOS PHSP; +Enddecay +Decay anti-Lambda0 +0.6390 anti-p- pi+ PHSP; +0.3580 anti-n0 pi0 PHSP; +0.0018 anti-n0 gamma PHSP; +0.0005 anti-p- pi+ gamma PHSP; +0.0006 anti-p- e+ anti-nu_e PHOTOS PHSP; +0.0001 anti-p- mu+ anti-nu_mu PHOTOS PHSP; +Enddecay +# +Decay Lambda(1405)0 +0.3333 Sigma+ pi- PHSP; +0.3333 Sigma- pi+ PHSP; +0.3333 Sigma0 pi0 PHSP; +Enddecay +# +Decay anti-Lambda(1405)0 +0.3333 anti-Sigma+ pi- PHSP; +0.3333 anti-Sigma- pi+ PHSP; +0.3333 anti-Sigma0 pi0 PHSP; +Enddecay +# +Decay Lambda(1520)0 +0.23 p+ K- PHSP; +0.23 n0 anti-K0 PHSP; +0.14 Sigma+ pi- PHSP; +0.14 Sigma- pi+ PHSP; +0.14 Sigma0 pi0 PHSP; +0.0333 Lambda0 pi0 pi0 PHSP; +0.0667 Lambda0 pi+ pi- PHSP; +0.003 Sigma+ pi- pi0 PHSP; +0.003 Sigma- pi+ pi0 PHSP; +0.001 Sigma0 pi0 pi0 PHSP; +0.002 Sigma0 pi+ pi- PHSP; +0.011 Lambda0 gamma PHSP; +Enddecay +# +Decay anti-Lambda(1520)0 +0.23 anti-p- K+ PHSP; +0.23 anti-n0 K0 PHSP; +0.14 anti-Sigma- pi+ PHSP; +0.14 anti-Sigma+ pi- PHSP; +0.14 anti-Sigma0 pi0 PHSP; +0.0333 anti-Lambda0 pi0 pi0 PHSP; +0.0667 anti-Lambda0 pi+ pi- PHSP; +0.003 anti-Sigma+ pi- pi0 PHSP; +0.003 anti-Sigma- pi+ pi0 PHSP; +0.001 anti-Sigma0 pi0 pi0 PHSP; +0.002 anti-Sigma0 pi+ pi- PHSP; +0.011 anti-Lambda0 gamma PHSP; +Enddecay +# +Decay Lambda(1600)0 +0.176 p+ K- PHSP; +0.176 n0 anti-K0 PHSP; +0.216 Sigma+ pi- PHSP; +0.216 Sigma- pi+ PHSP; +0.216 Sigma0 pi0 PHSP; +Enddecay +# +Decay anti-Lambda(1600)0 +0.176 anti-p- K+ PHSP; +0.176 anti-n0 K0 PHSP; +0.216 anti-Sigma+ pi- PHSP; +0.216 anti-Sigma- pi+ PHSP; +0.216 anti-Sigma0 pi0 PHSP; +Enddecay +# +Decay Lambda(1670)0 +0.10 p+ K- PHSP; +0.10 n0 anti-K0 PHSP; +0.16 Sigma+ pi- PHSP; +0.16 Sigma- pi+ PHSP; +0.16 Sigma0 pi0 PHSP; +0.32 Lambda0 eta PHSP; +Enddecay +# +Decay anti-Lambda(1670)0 +0.10 anti-p- K+ PHSP; +0.10 anti-n0 K0 PHSP; +0.16 anti-Sigma+ pi- PHSP; +0.16 anti-Sigma- pi+ PHSP; +0.16 anti-Sigma0 pi0 PHSP; +0.32 anti-Lambda0 eta PHSP; +Enddecay +# +Decay Lambda(1690)0 +0.125 p+ K- PHSP; +0.125 n0 anti-K0 PHSP; +0.10 Sigma+ pi- PHSP; +0.10 Sigma- pi+ PHSP; +0.10 Sigma0 pi0 PHSP; +0.0833 Lambda0 pi0 pi0 PHSP; +0.1667 Lambda0 pi+ pi- PHSP; +0.067 Sigma+ pi- pi0 PHSP; +0.067 Sigma- pi+ pi0 PHSP; +0.022 Sigma0 pi0 pi0 PHSP; +0.044 Sigma0 pi+ pi- PHSP; +Enddecay +# +Decay anti-Lambda(1690)0 +0.125 anti-p- K+ PHSP; +0.125 anti-n0 K0 PHSP; +0.10 anti-Sigma+ pi- PHSP; +0.10 anti-Sigma- pi+ PHSP; +0.10 anti-Sigma0 pi0 PHSP; +0.0833 anti-Lambda0 pi0 pi0 PHSP; +0.1667 anti-Lambda0 pi+ pi- PHSP; +0.067 anti-Sigma+ pi- pi0 PHSP; +0.067 anti-Sigma- pi+ pi0 PHSP; +0.022 anti-Sigma0 pi0 pi0 PHSP; +0.044 anti-Sigma0 pi+ pi- PHSP; +Enddecay +# +Decay Lambda(1800)0 +0.165 p+ K- PHSP; +0.165 n0 anti-K0 PHSP; +0.08 Sigma+ pi- PHSP; +0.08 Sigma- pi+ PHSP; +0.08 Sigma0 pi0 PHSP; +0.003 Sigma*+ pi- PHSP; +0.003 Sigma*- pi+ PHSP; +0.004 Sigma*0 pi0 PHSP; +0.21 p+ K*- PHSP; +0.21 n0 anti-K*0 PHSP; +Enddecay +# +Decay anti-Lambda(1800)0 +0.165 anti-p- K+ PHSP; +0.165 anti-n0 K0 PHSP; +0.08 anti-Sigma+ pi- PHSP; +0.08 anti-Sigma- pi+ PHSP; +0.08 anti-Sigma0 pi0 PHSP; +0.003 anti-Sigma*+ pi- PHSP; +0.003 anti-Sigma*- pi+ PHSP; +0.004 anti-Sigma*0 pi0 PHSP; +0.21 anti-p- K*+ PHSP; +0.21 anti-n0 K*0 PHSP; +Enddecay +# +Decay Lambda(1810)0 +0.165 p+ K- PHSP; +0.165 n0 anti-K0 PHSP; +0.08 Sigma+ pi- PHSP; +0.08 Sigma- pi+ PHSP; +0.08 Sigma0 pi0 PHSP; +0.003 Sigma*+ pi- PHSP; +0.003 Sigma*- pi+ PHSP; +0.004 Sigma*0 pi0 PHSP; +0.21 p+ K*- PHSP; +0.21 n0 anti-K*0 PHSP; +Enddecay +# +Decay anti-Lambda(1810)0 +0.165 anti-p- K+ PHSP; +0.165 anti-n0 K0 PHSP; +0.08 anti-Sigma+ pi- PHSP; +0.08 anti-Sigma- pi+ PHSP; +0.08 anti-Sigma0 pi0 PHSP; +0.003 anti-Sigma*+ pi- PHSP; +0.003 anti-Sigma*- pi+ PHSP; +0.004 anti-Sigma*0 pi0 PHSP; +0.21 anti-p- K*+ PHSP; +0.21 anti-n0 K*0 PHSP; +Enddecay +# +Decay Lambda(1820)0 +0.34 p+ K- PHSP; +0.34 n0 anti-K0 PHSP; +0.06 Sigma+ pi- PHSP; +0.06 Sigma- pi+ PHSP; +0.06 Sigma0 pi0 PHSP; +0.04 Sigma*+ pi- PHSP; +0.04 Sigma*- pi+ PHSP; +0.04 Sigma*0 pi0 PHSP; +0.01 Lambda0 eta PHSP; +0.003 Sigma+ pi- pi0 PHSP; +0.004 Sigma- pi+ pi0 PHSP; +0.001 Sigma0 pi0 pi0 PHSP; +0.002 Sigma0 pi+ pi- PHSP; +Enddecay +# +Decay anti-Lambda(1820)0 +0.34 anti-p- K+ PHSP; +0.34 anti-n0 K0 PHSP; +0.06 anti-Sigma+ pi- PHSP; +0.06 anti-Sigma- pi+ PHSP; +0.06 anti-Sigma0 pi0 PHSP; +0.04 anti-Sigma*+ pi- PHSP; +0.04 anti-Sigma*- pi+ PHSP; +0.04 anti-Sigma*0 pi0 PHSP; +0.01 anti-Lambda0 eta PHSP; +0.003 anti-Sigma+ pi- pi0 PHSP; +0.004 anti-Sigma- pi+ pi0 PHSP; +0.001 anti-Sigma0 pi0 pi0 PHSP; +0.002 anti-Sigma0 pi+ pi- PHSP; +Enddecay +# +Decay Lambda(1830)0 +0.05 p+ K- PHSP; +0.05 n0 anti-K0 PHSP; +0.24 Sigma+ pi- PHSP; +0.24 Sigma- pi+ PHSP; +0.24 Sigma0 pi0 PHSP; +0.06 Sigma*+ pi- PHSP; +0.06 Sigma*- pi+ PHSP; +0.06 Sigma*0 pi0 PHSP; +Enddecay +# +Decay anti-Lambda(1830)0 +0.05 anti-p- K+ PHSP; +0.05 anti-n0 K0 PHSP; +0.24 anti-Sigma+ pi- PHSP; +0.24 anti-Sigma- pi+ PHSP; +0.24 anti-Sigma0 pi0 PHSP; +0.06 anti-Sigma*+ pi- PHSP; +0.06 anti-Sigma*- pi+ PHSP; +0.06 anti-Sigma*0 pi0 PHSP; +Enddecay +# +# +Decay Sigma(1660)0 +0.07 p+ K- PHSP; +0.07 n0 anti-K0 PHSP; +0.16 Lambda0 pi0 PHSP; +0.35 Sigma+ pi- PHSP; +0.35 Sigma- pi+ PHSP; +Enddecay +# +Decay anti-Sigma(1660)0 +0.07 anti-p- K+ PHSP; +0.07 anti-n0 K0 PHSP; +0.16 anti-Lambda0 pi0 PHSP; +0.35 anti-Sigma+ pi- PHSP; +0.35 anti-Sigma- pi+ PHSP; +Enddecay +# +Decay Sigma(1670)0 +0.07 p+ K- PHSP; +0.07 n0 anti-K0 PHSP; +0.16 Lambda0 pi0 PHSP; +0.35 Sigma+ pi- PHSP; +0.35 Sigma- pi+ PHSP; +Enddecay +# +Decay anti-Sigma(1670)0 +0.07 anti-p- K+ PHSP; +0.07 anti-n0 K0 PHSP; +0.16 anti-Lambda0 pi0 PHSP; +0.35 anti-Sigma+ pi- PHSP; +0.35 anti-Sigma- pi+ PHSP; +Enddecay +# +Decay Sigma(1775)0 +0.215 p+ K- PHSP; +0.215 n0 anti-K0 PHSP; +0.20 Lambda0 pi0 PHSP; +0.02 Sigma+ pi- PHSP; +0.02 Sigma- pi+ PHSP; +0.055 Sigma*+ pi- PHSP; +0.055 Sigma*- pi+ PHSP; +0.22 Lambda(1520)0 pi0 PHSP; +Enddecay +# +Decay anti-Sigma(1775)0 +0.215 anti-p- K+ PHSP; +0.215 anti-n0 K0 PHSP; +0.20 anti-Lambda0 pi0 PHSP; +0.02 anti-Sigma+ pi- PHSP; +0.02 anti-Sigma- pi+ PHSP; +0.055 anti-Sigma*+ pi- PHSP; +0.055 anti-Sigma*- pi+ PHSP; +0.22 anti-Lambda(1520)0 pi0 PHSP; +Enddecay +Decay Sigma+ +0.5157 p+ pi0 PHSP; +0.4831 n0 pi+ PHSP; +0.0012 p+ gamma PHSP; +Enddecay +Decay anti-Sigma- +0.5157 anti-p- pi0 PHSP; +0.4831 anti-n0 pi- PHSP; +0.0012 anti-p- gamma PHSP; +Enddecay +# +Decay Delta+ +0.6630 p+ pi0 PHSP; +0.3310 n0 pi+ PHSP; +0.0060 p+ gamma PHSP; +Enddecay +Decay anti-Delta- +0.6630 anti-p- pi0 PHSP; +0.3310 anti-n0 pi- PHSP; +0.0060 anti-p- gamma PHSP; +Enddecay +# +Decay Delta++ +1.0000 p+ pi+ PHSP; +Enddecay +Decay anti-Delta-- +1.0000 anti-p- pi- PHSP; +Enddecay +# +Decay Xi*0 +0.3330 Xi0 pi0 PHSP; +0.6670 Xi- pi+ PHSP; +Enddecay +Decay anti-Xi*0 +0.3330 anti-Xi0 pi0 PHSP; +0.6670 anti-Xi+ pi- PHSP; +Enddecay +# +Decay Delta0 +0.3310 p+ pi- PHSP; +0.6630 n0 pi0 PHSP; +0.0060 n0 gamma PHSP; +Enddecay +Decay anti-Delta0 +0.3310 anti-p- pi+ PHSP; +0.6630 anti-n0 pi0 PHSP; +0.0060 anti-n0 gamma PHSP; +Enddecay +# +Decay Delta- +1.0000 n0 pi- PHSP; +Enddecay +Decay anti-Delta+ +1.0000 anti-n0 pi+ PHSP; +Enddecay +# +Decay Sigma- +1.0000 n0 pi- PHSP; +Enddecay +Decay anti-Sigma+ +1.0000 anti-n0 pi+ PHSP; +Enddecay +# +Decay Sigma0 +1.0000 gamma Lambda0 PHSP; +Enddecay +Decay anti-Sigma0 +1.0000 gamma anti-Lambda0 PHSP; +Enddecay +# +Decay Sigma*- +0.8800 Lambda0 pi- PHSP; +0.0600 Sigma0 pi- PHSP; +0.0600 Sigma- pi0 PHSP; +Enddecay +Decay anti-Sigma*+ +0.8800 anti-Lambda0 pi+ PHSP; +0.0600 anti-Sigma0 pi+ PHSP; +0.0600 anti-Sigma+ pi0 PHSP; +Enddecay +# +Decay Sigma*+ +0.8800 Lambda0 pi+ PHSP; +0.0600 Sigma+ pi0 PHSP; +0.0600 Sigma0 pi+ PHSP; +Enddecay +Decay anti-Sigma*- +0.8800 anti-Lambda0 pi- PHSP; +0.0600 anti-Sigma- pi0 PHSP; +0.0600 anti-Sigma0 pi- PHSP; +Enddecay +# +Decay Sigma*0 +0.8800 Lambda0 pi0 PHSP; +0.0600 Sigma+ pi- PHSP; +0.0600 Sigma- pi+ PHSP; +Enddecay +Decay anti-Sigma*0 +0.8800 anti-Lambda0 pi0 PHSP; +0.0600 anti-Sigma- pi+ PHSP; +0.0600 anti-Sigma+ pi- PHSP; +Enddecay +# +Decay Xi0 +1.0000 Lambda0 pi0 PHSP; +Enddecay +Decay anti-Xi0 +1.0000 anti-Lambda0 pi0 PHSP; +Enddecay +# +Decay Xi- +1.0000 Lambda0 pi- PHSP; +Enddecay +Decay anti-Xi+ +1.0000 anti-Lambda0 pi+ PHSP; +Enddecay +# +Decay Xi*- +0.6670 Xi0 pi- PHSP; +0.3330 Xi- pi0 PHSP; +Enddecay +Decay anti-Xi*+ +0.6670 anti-Xi0 pi+ PHSP; +0.3330 anti-Xi+ pi0 PHSP; +Enddecay +# +Decay Omega- +0.6780 Lambda0 K- PHSP; +0.2360 Xi0 pi- PHSP; +0.0860 Xi- pi0 PHSP; +Enddecay +Decay anti-Omega+ +0.6780 anti-Lambda0 K+ PHSP; +0.2360 anti-Xi0 pi+ PHSP; +0.0860 anti-Xi+ pi0 PHSP; +Enddecay +# +# +Decay Sigma_c*0 +1.0000 Lambda_c+ pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0 +# +Decay Sigma_c*+ +1.0000 Lambda_c+ pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*- +# +Decay Sigma_c*++ +1.0000 Lambda_c+ pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*-- +# +Decay Xi_c*0 +0.5000 Xi_c0 pi0 PHSP; +0.5000 Xi_c0 gamma PHSP; +Enddecay +CDecay anti-Xi_c*0 +# +Decay Xi_c*+ +0.5000 Xi_c+ pi0 PHSP; +0.5000 Xi_c+ gamma PHSP; +Enddecay +CDecay anti-Xi_c*- +# +Decay Omega_c0 +1.00000 JETSET 84; +Enddecay +# +CDecay anti-Omega_c0 +# +Decay Omega_c*0 +1.0000 Omega_c0 gamma PHSP; +Enddecay +# +CDecay anti-Omega_c*0 +# +Decay Xu0 +# X_u^0 -> u anti-u +# +1.0 u anti-u JETSET 11; +Enddecay +Decay Xu+ +# X_u^+ -> u anti-d +# +1.0 u anti-d JETSET 11; +Enddecay +CDecay Xu- + +#lange - JETSET is making h_c mesons - better add a decay +# channel for them. +Decay h_c +1.0 J/psi pi0 PHSP; +Enddecay + + +End + + diff --git a/BaBar_2014/B0B0bar_noSLemu_noSLemu.dec b/BaBar_2014/B0B0bar_noSLemu_noSLemu.dec new file mode 100644 index 0000000..34bc780 --- /dev/null +++ b/BaBar_2014/B0B0bar_noSLemu_noSLemu.dec @@ -0,0 +1,644 @@ +############################################################################### +# Decay file for Y(4S) -> B0 B0bar (mixed) +# | | +# | -> non-SL +# -----> non-SL +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Last change 15 Nov 1999 +############################################################################### + +## use the world average value reported at the Lepton-Photon 99 conference: +## ( http://www.cern.ch/LEPBOSC/combined_results/stanford_1999/ ) +## +## delta(m) = 0.473 +- 0.016 /ps + + +## define aliases with restricted decay modes (which are specified below) + +Alias B0-SL-e B0 +Alias B0-SL-mu B0 +Alias B0-no-SL B0 + +Alias anti-B0-SL-e anti-B0 +Alias anti-B0-SL-mu anti-B0 +Alias anti-B0-no-SL anti-B0 + +## define charge conjugate relationships between aliases + +ChargeConj B0-SL-e anti-B0-SL-e +ChargeConj B0-SL-mu anti-B0-SL-mu +ChargeConj B0-no-SL anti-B0-no-SL + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.823578 B0-no-SL anti-B0-no-SL VSS_MIX dm; + 0.088211 anti-B0-no-SL anti-B0-no-SL VSS_MIX dm; + 0.088211 B0-no-SL B0-no-SL VSS_MIX dm; +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-e + +# b -> c e+ nu (10.4%) + + 0.0490 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- e+ nu_e PHOTOS ISGW2; + 0.0040 D_1- e+ nu_e PHOTOS ISGW2; + 0.0040 D_0*- e+ nu_e PHOTOS ISGW2; + 0.0070 D'_1- e+ nu_e PHOTOS ISGW2; + 0.0070 D_2*- e+ nu_e PHOTOS ISGW2; + 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0806%) + + 0.000064 pi- e+ nu_e PHOTOS ISGW2; + 0.000250 rho- e+ nu_e PHOTOS ISGW2; + 0.000274 a_1- e+ nu_e PHOTOS ISGW2; + 0.000170 b_1- e+ nu_e PHOTOS ISGW2; + 0.000024 a_0- e+ nu_e PHOTOS ISGW2; + 0.000024 a_2- e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-SL-mu + +# b -> c mu+ nu (10.4%) + + 0.0490 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_1- mu+ nu_mu PHOTOS ISGW2; + 0.0040 D_0*- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D'_1- mu+ nu_mu PHOTOS ISGW2; + 0.0070 D_2*- mu+ nu_mu PHOTOS ISGW2; + 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0806%) + + 0.000064 pi- mu+ nu_mu PHOTOS ISGW2; + 0.000250 rho- mu+ nu_mu PHOTOS ISGW2; + 0.000274 a_1- mu+ nu_mu PHOTOS ISGW2; + 0.000170 b_1- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_0- mu+ nu_mu PHOTOS ISGW2; + 0.000024 a_2- mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-e + +# b -> c e- nu (10.4%) + + 0.0490 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0040 D_0*+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D'_1+ e- anti-nu_e PHOTOS ISGW2; + 0.0070 D_2*+ e- anti-nu_e PHOTOS ISGW2; + 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0806%) + + 0.000064 pi+ e- anti-nu_e PHOTOS ISGW2; + 0.000250 rho+ e- anti-nu_e PHOTOS ISGW2; + 0.000274 a_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000170 b_1+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_0+ e- anti-nu_e PHOTOS ISGW2; + 0.000024 a_2+ e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-SL-mu + +# b -> c mu- nu (10.4%) + + 0.0490 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; + 0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0040 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0070 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; + 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0806%) + + 0.000064 pi+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000250 rho+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000274 a_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000170 b_1+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_0+ mu- anti-nu_mu PHOTOS ISGW2; + 0.000024 a_2+ mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B0 which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B0-no-SL + +# JETSET misc fragmentation (42.664%) + + 0.32474 u anti-d anti-c d JETSET 48; + 0.04600 u anti-d anti-c d JETSET 25; + 0.02100 u anti-s anti-c d JETSET 23; + 0.01800 u anti-c anti-d d JETSET 48; + 0.00090 u anti-c anti-s d JETSET 48; + 0.00000 c anti-s anti-c d JETSET 13; + 0.00600 c anti-d anti-c d JETSET 13; + 0.00600 u anti-d anti-u d JETSET 48; + 0.00400 c anti-s anti-u d JETSET 48; + +# b -> c (sc=) --> D Ds X (10.14%) + + 0.0096 D- D_s+ PHSP; + 0.0102 D*- D_s+ SVS; + 0.0120 D_1- D_s+ SVS; + 0.0094 D_s*+ D- SVS; + 0.0174 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0030 D_s+ D- pi0 PHSP; + 0.0060 D_s+ anti-D0 pi- PHSP; + 0.0030 D_s*+ D- pi0 PHSP; + 0.0060 D_s*+ anti-D0 pi- PHSP; + 0.0050 D_s+ D- pi- pi+ PHSP; + 0.0037 D_s+ D- pi0 pi0 PHSP; + 0.0037 D_s+ anti-D0 pi- pi0 PHSP; + 0.0050 D_s*+ D- pi- pi+ PHSP; + 0.0037 D_s*+ D- pi0 pi0 PHSP; + 0.0037 D_s*+ anti-D0 pi- pi0 PHSP; + +# b -> c (sc=) --> D D= K X (8.0%) + + 0.0025 D- D0 K+ PHSP; + 0.0025 D- D+ K0 PHSP; + 0.0025 D- D0 K*+ PHSP; + 0.0025 D- D+ K*0 PHSP; + + 0.0050 D*- D0 K+ PHSP; + 0.0050 D*- D+ K0 PHSP; + 0.0050 D- D*0 K+ PHSP; + 0.0050 D- D*+ K0 PHSP; + + 0.0025 D*- D0 K*+ PHSP; + 0.0025 D*- D+ K*0 PHSP; + 0.0025 D- D*0 K*+ PHSP; + 0.0025 D- D*+ K*0 PHSP; + + 0.0150 D*- D*0 K+ PHSP; + 0.0150 D*- D*+ K0 PHSP; + 0.0050 D*- D*0 K*+ PHSP; + 0.0050 D*- D*+ K*0 PHSP; + +# B -> D(*) X Exclusive modes (6.67%) + + 0.0027 D*- pi+ SVS; + 0.0030 D- pi+ PHSP; + 0.0082 rho+ D- SVS; + 0.0070 rho+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 D- pi+ pi0 PHSP; + 0.0070 D*- pi+ pi0 PHSP; + 0.0010 anti-D0 pi- pi+ PHSP; + 0.0010 anti-D*0 pi- pi+ PHSP; + 0.0005 anti-D*0 pi0 pi0 PHSP; + + 0.0060 a_1+ D- SVS; + 0.0011 D- rho0 pi+ PHSP; + 0.0011 D- rho+ pi0 PHSP; + 0.0010 D- pi- pi+ pi+ PHSP; + 0.0010 D- pi0 pi+ pi0 PHSP; + 0.0010 anti-D0 pi- pi+ pi0 PHSP; + 0.0001 anti-D0 pi0 pi0 pi0 PHSP; + + 0.0122 a_1+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 D*- rho0 pi+ PHSP; + 0.0010 D*- rho+ pi0 PHSP; + 0.0077 D*- pi- pi+ pi+ PHSP; + 0.0010 D*- pi0 pi+ pi0 PHSP; + 0.0010 anti-D*0 pi- pi+ pi0 PHSP; + 0.0001 anti-D*0 pi0 pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + + 0.01000 anti-cd_0 ud_0 JETSET 23; + 0.03000 anti-cd_1 ud_1 JETSET 23; + +# b -> c tau+ nu (2.96%) + + 0.0160 D*- tau+ nu_tau ISGW2; + 0.0070 D- tau+ nu_tau ISGW2; + 0.0013 D_1- tau+ nu_tau ISGW2; + 0.0013 D_0*- tau+ nu_tau ISGW2; + 0.0020 D'_1- tau+ nu_tau ISGW2; + 0.0020 D_2*- tau+ nu_tau ISGW2; + +# Xi_c X (2.4%) + + 0.00600 anti-cs_0 ud_0 JETSET 23; + 0.01800 anti-cs_1 ud_1 JETSET 23; + +# B -> cc= s (1.94%) + + 0.0004 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0004 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00025 J/psi K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.00025 J/psi K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 J/psi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 J/psi K+ pi- PHSP; + 0.0005 J/psi K0 pi0 PHSP; + 0.0014 J/psi K0 pi- pi+ PHSP; + 0.0007 J/psi K0 pi0 pi0 PHSP; + 0.0007 J/psi K+ pi- pi0 PHSP; + 0.0005 J/psi anti-K'_10 PHSP; + 0.0005 J/psi anti-K_2*0 PHSP; + + 0.0003 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0003 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00025 psi(2S) K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.00025 psi(2S) K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0010 psi(2S) K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 psi(2S) K+ pi- PHSP; + 0.0002 psi(2S) K0 pi0 PHSP; + 0.0004 psi(2S) K0 pi- pi+ PHSP; + 0.0002 psi(2S) K0 pi0 pi0 PHSP; + 0.0002 psi(2S) K+ pi- pi0 PHSP; + + 0.0001 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0001 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00005 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00005 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0002 K*0T eta_c SVS; + 0.0002 eta_c K+ pi- PHSP; + 0.0001 eta_c K0 pi0 PHSP; + 0.0002 eta_c K0 pi- pi+ PHSP; + 0.0001 eta_c K0 pi0 pi0 PHSP; + 0.0001 eta_c K+ pi- pi0 PHSP; + + 0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0002 K*0T chi_c0 SVS; + 0.0002 chi_c0 K+ pi- PHSP; + 0.0001 chi_c0 K0 pi0 PHSP; + 0.0002 chi_c0 K0 pi- pi+ PHSP; + 0.0001 chi_c0 K0 pi0 pi0 PHSP; + 0.0001 chi_c0 K+ pi- pi0 PHSP; + + 0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.0002 K*S chi_c1 SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0002 K*L chi_c1 SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0008 chi_c1 K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 chi_c1 K+ pi- PHSP; + 0.0002 chi_c1 K0 pi0 PHSP; + 0.0004 chi_c1 K0 pi- pi+ PHSP; + 0.0002 chi_c1 K0 pi0 pi0 PHSP; + 0.0002 chi_c1 K+ pi- pi0 PHSP; + + 0.0002 chi_c2 K_S0 PHSP; + 0.0002 chi_c2 K_L0 PHSP; + 0.00015 K*S chi_c2 PHSP; + 0.00015 K*L chi_c2 PHSP; + 0.0006 chi_c2 K*0T PHSP; + 0.0004 chi_c2 K+ pi- PHSP; + 0.0002 chi_c2 K0 pi0 PHSP; + 0.0004 chi_c2 K0 pi- pi+ PHSP; + 0.0002 chi_c2 K0 pi0 pi0 PHSP; + 0.0002 chi_c2 K+ pi- pi0 PHSP; + +# b-> c (dc=) (0.232%) + + 0.00045 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; + 0.00081 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00081 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + 0.00025 D*+ D*- SVV_CP beta dm -1 0.62 0.0 1.05 0.0 0.25 0.0; + +# b -> u tau+ nu (0.0218%) + + 0.000021 pi- tau+ nu_tau ISGW2; + 0.000083 rho- tau+ nu_tau ISGW2; + 0.000090 a_1- tau+ nu_tau ISGW2; + 0.000008 b_1- tau+ nu_tau ISGW2; + 0.000008 a_0- tau+ nu_tau ISGW2; + 0.000008 a_2- tau+ nu_tau ISGW2; + +# B0 -> CP eigenstates (some exclusive b -> u) (0.011%) + + 0.00001 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.00001 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; + 0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; + 0.000056 pi- pi+ pi0 BTO3PI_CP dm alpha; + +Enddecay + +##----------------------------------------------------------------------------- +## define an anti-B0 which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay anti-B0-no-SL + +# JETSET misc fragmentation (42.664%) + +0.32474 anti-u d c anti-d JETSET 48; +0.04600 anti-u d c anti-d JETSET 25; +0.02100 anti-u s c anti-d JETSET 23; +0.01800 anti-u c d anti-d JETSET 48; +0.00090 anti-u c s anti-d JETSET 48; +0.00000 anti-c s c anti-d JETSET 13; +0.00600 anti-c d c anti-d JETSET 13; +0.00600 anti-u d u anti-d JETSET 48; +0.00400 anti-c s u anti-d JETSET 48; + +# b -> c (sc=) --> D Ds X (10.14%) + +0.0096 D+ D_s- PHSP; +0.0102 D*+ D_s- SVS; +0.0120 D_1+ D_s- SVS; +0.0094 D_s*- D+ SVS; +0.0174 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0030 D_s- D+ pi0 PHSP; +0.0060 D_s- D0 pi+ PHSP; +0.0030 D_s*- D+ pi0 PHSP; +0.0060 D_s*- D0 pi+ PHSP; +0.0050 D_s- D+ pi+ pi- PHSP; +0.0037 D_s- D+ pi0 pi0 PHSP; +0.0037 D_s- D0 pi+ pi0 PHSP; +0.0050 D_s*- D+ pi+ pi- PHSP; +0.0037 D_s*- D+ pi0 pi0 PHSP; +0.0037 D_s*- D0 pi+ pi0 PHSP; + +# b -> c (sc=) --> D D= K X (8.0%) + +0.0025 D+ anti-D0 K- PHSP; +0.0025 D+ D- anti-K0 PHSP; +0.0025 D+ anti-D0 K*- PHSP; +0.0025 D+ D- anti-K*0 PHSP; +# +0.0050 D*+ anti-D0 K- PHSP; +0.0050 D*+ D- anti-K0 PHSP; +0.0050 D+ anti-D*0 K- PHSP; +0.0050 D+ D*- anti-K0 PHSP; +# +0.0025 D*+ anti-D0 K*- PHSP; +0.0025 D*+ D- anti-K*0 PHSP; +0.0025 D+ anti-D*0 K*- PHSP; +0.0025 D+ D*- anti-K*0 PHSP; +# +0.0150 D*+ anti-D*0 K- PHSP; +0.0150 D*+ D*- anti-K0 PHSP; +0.0050 D*+ anti-D*0 K*- PHSP; +0.0050 D*+ D*- anti-K*0 PHSP; + +# B -> D(*) X Exclusive modes (6.67%) + +0.0027 D*+ pi- SVS; +0.0030 D+ pi- PHSP; +0.0082 rho- D+ SVS; +0.0070 rho- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D+ pi- pi0 PHSP; +0.0070 D*+ pi- pi0 PHSP; +0.0010 D0 pi+ pi- PHSP; +0.0010 D*0 pi+ pi- PHSP; +0.0005 D*0 pi0 pi0 PHSP; +# +0.0060 a_1- D+ SVS; +0.0011 D+ rho0 pi- PHSP; +0.0011 D+ rho- pi0 PHSP; +0.0010 D+ pi+ pi- pi- PHSP; +0.0010 D+ pi0 pi- pi0 PHSP; +0.0010 D0 pi+ pi- pi0 PHSP; +0.0001 D0 pi0 pi0 pi0 PHSP; +# +0.0122 a_1- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 D*+ rho0 pi- PHSP; +0.0010 D*+ rho- pi0 PHSP; +0.0077 D*+ pi+ pi- pi- PHSP; +0.0010 D*+ pi0 pi- pi0 PHSP; +0.0010 D*0 pi+ pi- pi0 PHSP; +0.0001 D*0 pi0 pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.01000 cd_0 anti-ud_0 JETSET 23; +0.03000 cd_1 anti-ud_1 JETSET 23; + +# b -> c tau- nu (2.96%) + +0.0160 D*+ tau- anti-nu_tau ISGW2; +0.0070 D+ tau- anti-nu_tau ISGW2; +0.0013 D_1+ tau- anti-nu_tau ISGW2; +0.0013 D_0*+ tau- anti-nu_tau ISGW2; +0.0020 D'_1+ tau- anti-nu_tau ISGW2; +0.0020 D_2*+ tau- anti-nu_tau ISGW2; + +# Xi_c X (2.4%) + +0.00600 cs_0 anti-ud_0 JETSET 23; +0.01800 cs_1 anti-ud_1 JETSET 23; + +# B -> cc= s (1.94%) + +0.0004 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0004 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00025 J/psi K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.00025 J/psi K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi K- pi+ PHSP; +0.0005 J/psi anti-K0 pi0 PHSP; +0.0014 J/psi anti-K0 pi+ pi- PHSP; +0.0007 J/psi anti-K0 pi0 pi0 PHSP; +0.0007 J/psi K- pi+ pi0 PHSP; +0.0005 J/psi K'_10 PHSP; +0.0005 J/psi K_2*0 PHSP; +# +0.0003 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0003 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00025 psi(2S) K*S SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.00025 psi(2S) K*L SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 psi(2S) anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) K- pi+ PHSP; +0.0002 psi(2S) anti-K0 pi0 PHSP; +0.0004 psi(2S) anti-K0 pi+ pi- PHSP; +0.0002 psi(2S) anti-K0 pi0 pi0 PHSP; +0.0002 psi(2S) K- pi+ pi0 PHSP; +# +0.0001 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0001 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0002 anti-K*0T eta_c SVS; +0.0002 eta_c K- pi+ PHSP; +0.0001 eta_c anti-K0 pi0 PHSP; +0.0002 eta_c anti-K0 pi+ pi- PHSP; +0.0001 eta_c anti-K0 pi0 pi0 PHSP; +0.0001 eta_c K- pi+ pi0 PHSP; +# +0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 anti-K*0T chi_c0 SVS; +0.0002 chi_c0 K- pi+ PHSP; +0.0001 chi_c0 anti-K0 pi0 PHSP; +0.0002 chi_c0 anti-K0 pi+ pi- PHSP; +0.0001 chi_c0 anti-K0 pi0 pi0 PHSP; +0.0001 chi_c0 K- pi+ pi0 PHSP; +# +0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.0002 K*S chi_c1 SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0002 K*L chi_c1 SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0008 chi_c1 anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 K- pi+ PHSP; +0.0002 chi_c1 anti-K0 pi0 PHSP; +0.0004 chi_c1 anti-K0 pi+ pi- PHSP; +0.0002 chi_c1 anti-K0 pi0 pi0 PHSP; +0.0002 chi_c1 K- pi+ pi0 PHSP; +# +0.0002 chi_c2 K_S0 PHSP; +0.0002 chi_c2 K_L0 PHSP; +0.00015 K*S chi_c2 PHSP; +0.00015 K*L chi_c2 PHSP; +0.0006 chi_c2 anti-K*0T PHSP; +0.0004 chi_c2 K- pi+ PHSP; +0.0002 chi_c2 anti-K0 pi0 PHSP; +0.0004 chi_c2 anti-K0 pi+ pi- PHSP; +0.0002 chi_c2 anti-K0 pi0 pi0 PHSP; +0.0002 chi_c2 K- pi+ pi0 PHSP; +# +# +# +0.0000 phi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*S SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 phi K*L SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.0000 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; + +# b-> c (dc=) (0.232%) + +0.00045 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +0.00081 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00081 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +0.00025 D*+ D*- SVV_CP beta dm -1 0.62 0.0 1.05 0.0 0.25 0.0; + +# b -> u tau- nu (0.0218%) + +0.000021 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; + +# B0 -> CP eigenstates (some exclusive b -> u) (0.011%) + +0.00001 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.00001 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 omega eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 rho0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 b_10 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000001 omega f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 rho0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 a_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +0.000001 b_10 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +0.000056 pi- pi+ pi0 BTO3PI_CP dm alpha; +#0.00000108 K- pi+ pi0 BTOKPIPI_CP dm alpha beta; + +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_nunu.dec b/BaBar_2014/B0B0bar_nunu.dec new file mode 100644 index 0000000..f5051ea --- /dev/null +++ b/BaBar_2014/B0B0bar_nunu.dec @@ -0,0 +1,37 @@ +################################################################### +# B0 --> nu nubar, B0bar - > generic # +# +cc # +# # +# Author: J. Albert (July 21, 2002) # +# (for B -> invisible group: R.V. Kowalewski # +# C. Hearty # +# R. Aleksan # +# J. Albert # +################################################################### +# +# +# Alias particles for specific decays +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.42000 B0 myantiB0 VSS_MIX dm; +0.42000 myB0 anti-B0 VSS_MIX dm; +0.08000 anti-B0 myantiB0 VSS_MIX dm; +0.08000 B0 myB0 VSS_MIX dm; +Enddecay +# +Decay myB0 +1.0000 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay myantiB0 +1.0000 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_nunugamma.dec b/BaBar_2014/B0B0bar_nunugamma.dec new file mode 100644 index 0000000..c372224 --- /dev/null +++ b/BaBar_2014/B0B0bar_nunugamma.dec @@ -0,0 +1,37 @@ +################################################################### +# B0 --> nu nubar gamma, B0bar - > generic # +# +cc # +# # +# Author: J. Albert (July 21, 2002) # +# (for B -> invisible group: R.V. Kowalewski # +# C. Hearty # +# R. Aleksan # +# J. Albert # +################################################################### +# +# +# Alias particles for specific decays +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.42000 B0 myantiB0 VSS_MIX dm; +0.42000 myB0 anti-B0 VSS_MIX dm; +0.08000 anti-B0 myantiB0 VSS_MIX dm; +0.08000 B0 myB0 VSS_MIX dm; +Enddecay +# +Decay myB0 +1.0000 nu_e anti-nu_e gamma PHOTOS PHSP ; +Enddecay +# +Decay myantiB0 +1.0000 nu_e anti-nu_e gamma PHOTOS PHSP ; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/B0B0bar_omegaD0_k3pi.dec b/BaBar_2014/B0B0bar_omegaD0_k3pi.dec new file mode 100644 index 0000000..2ba1fcc --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaD0_k3pi.dec @@ -0,0 +1,49 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# |->K-pi+pi+pi- # +# # +# # +# # +# # +# Author: Maha K # +# created:08/25/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 Myomega MyD0 SVS; +Enddecay + +Decay MyB0 +1.00 Myomega MyantiD0 SVS; +Enddecay + + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_omegaD0_kpi.dec b/BaBar_2014/B0B0bar_omegaD0_kpi.dec new file mode 100644 index 0000000..a47c98d --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaD0_kpi.dec @@ -0,0 +1,50 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# | # +# |->K-pi+ # +# # +# # +# # +# # +# Author: Maha K # +# created:08/25/00 # +# # +##################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 Myomega MyD0 SVS; +Enddecay + +Decay MyB0 +1.00 Myomega MyantiD0 SVS; +Enddecay + + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_omegaD0_kpipi0.dec b/BaBar_2014/B0B0bar_omegaD0_kpipi0.dec new file mode 100644 index 0000000..04d2a31 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaD0_kpipi0.dec @@ -0,0 +1,47 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# | # +# |->K-pi+ pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 Myomega MyD0 SVS; +Enddecay + +Decay MyB0 +1.00 Myomega MyantiD0 SVS; +Enddecay + + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_k3pi.dec b/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_k3pi.dec new file mode 100644 index 0000000..bde4d26 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_k3pi.dec @@ -0,0 +1,63 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/25/00 # +# # +########################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_kpi.dec b/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_kpi.dec new file mode 100644 index 0000000..77fd561 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_kpi.dec @@ -0,0 +1,58 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 omega # +# | | # +# | k+pi- # +# | # +# |->K+ pi- # +# # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_kpipi0.dec b/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_kpipi0.dec new file mode 100644 index 0000000..7a2118d --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaDstar0_D0gamma_kpipi0.dec @@ -0,0 +1,63 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+ pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; + +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_k3pi.dec b/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_k3pi.dec new file mode 100644 index 0000000..b41e261 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_k3pi.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_kpi.dec b/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_kpi.dec new file mode 100644 index 0000000..1bc6e62 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_kpi.dec @@ -0,0 +1,61 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+ # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_kpipi0.dec b/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_kpipi0.dec new file mode 100644 index 0000000..e7331f7 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaDstar0_D0pi0_kpipi0.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 omega # +# | | # +# | pi+pi-pi0 # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias Myomega omega + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +Decay Myomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_omegaKS.dec b/BaBar_2014/B0B0bar_omegaKS.dec new file mode 100644 index 0000000..504e8fc --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaKS.dec @@ -0,0 +1,56 @@ +########################################################################### +# This is a DECAY.DEC file for B0(B0bar) -> omega KS : # +# Upsilon(4S) -> B0 B0bar +CC # +# | | # +# | -> omega KS # +# | | | # +# | | -> pi+ pi- # +# -> X | # +# -> pi+ pi- pi0 # +# # +# # +# # +# Jean Roy (jroy@pizero.colorado.edu) 22-MAR-2000 # +# # +########################################################################### +# +# Create our own versions of B0, B0bar which will decay to omega KS +# +Alias myB0 B0 +Alias myanti-B0 anti-B0 +# +# Define CP parameters +# +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myanti-B0 VSS_BMIX dm; +Enddecay +# +# Create our own omega to force it to decay to three pions +# +Alias myOmega omega +# +Decay myOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# Create our own Kshort to force it to decay to pi+ pi- +# +Alias myK_S0 K_S0 +# +Decay myK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# Force myB0 and myB0bar to always decay to myOmega myK_S0 +# +Decay myB0 +1.0000 myOmega myK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay myanti-B0 +1.0000 myOmega myK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaKstar_Kppim.dec b/BaBar_2014/B0B0bar_omegaKstar_Kppim.dec new file mode 100644 index 0000000..9a65a36 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaKstar_Kppim.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> omega K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias Myomega omega +Define dm .464e12 + + +Decay Upsilon(4S) +0.415 B0 MyB0bar VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 anti-B0 MyB0bar VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 Myomega MyK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyK*0bar SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaKstar_Kppim_ln.dec b/BaBar_2014/B0B0bar_omegaKstar_Kppim_ln.dec new file mode 100644 index 0000000..3fdd634 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaKstar_Kppim_ln.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: B0 -> omega K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias Myomega omega +Define dm .464e12 + + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 Myomega MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaKstar_Kppim_tr.dec b/BaBar_2014/B0B0bar_omegaKstar_Kppim_tr.dec new file mode 100644 index 0000000..247104d --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaKstar_Kppim_tr.dec @@ -0,0 +1,56 @@ +############################################################ +# # +# Decay: B0 -> omega K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias Myomega omega +Define dm .464e12 + + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 Myomega MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaKstar_Kspi0.dec b/BaBar_2014/B0B0bar_omegaKstar_Kspi0.dec new file mode 100644 index 0000000..2054dad --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaKstar_Kspi0.dec @@ -0,0 +1,64 @@ +############################################################ +# # +# Decay: B0 -> omega K*0 -> (pi+pi-pi0)(Kspi0) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias Myomega omega +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 + + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 Myomega MyK*0 SVV_CP beta dm 1.0 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyK*0bar SVV_CP beta dm 1.0 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaKstar_Kspi0_ln.dec b/BaBar_2014/B0B0bar_omegaKstar_Kspi0_ln.dec new file mode 100644 index 0000000..a0d6ff2 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaKstar_Kspi0_ln.dec @@ -0,0 +1,64 @@ +############################################################ +# # +# Decay: B0 -> omega K*0 -> (pi+pi-pi0)(Kspi0) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias Myomega omega +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 + + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 Myomega MyK*0 SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyK*0bar SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaKstar_Kspi0_tr.dec b/BaBar_2014/B0B0bar_omegaKstar_Kspi0_tr.dec new file mode 100644 index 0000000..081690c --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaKstar_Kspi0_tr.dec @@ -0,0 +1,64 @@ +############################################################ +# # +# Decay: B0 -> omega K*0 -> (pi+pi-pi0)(Kspi0) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias Myomega omega +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 + + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 Myomega MyK*0 SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyK*0bar SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaRho0_ln.dec b/BaBar_2014/B0B0bar_omegaRho0_ln.dec new file mode 100644 index 0000000..3188d1c --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaRho0_ln.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: B0 -> omega rho0 -> (pi+pi-pi0)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 07/13/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyRho0 rho0 +Alias MyRho0bar rho0 +Alias Myomega omega +Define dm .464e12 + + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 Myomega MyRho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyRho0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyRho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyRho0bar +1.0000 pi- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaRho0_tr.dec b/BaBar_2014/B0B0bar_omegaRho0_tr.dec new file mode 100644 index 0000000..1e53529 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaRho0_tr.dec @@ -0,0 +1,56 @@ +############################################################ +# # +# Decay: B0 -> omega Rho0 -> (pi+pi-pi0)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 07/13/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyRho0 rho0 +Alias MyRho0bar rho0 +Alias Myomega omega +Define dm .464e12 + + +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 MyB0bar B0 VSS_MIX dm; +0.085 MyB0bar anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 Myomega MyRho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB0bar +1.0000 Myomega MyRho0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyRho0bar +1.0000 pi- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegagamma.dec b/BaBar_2014/B0B0bar_omegagamma.dec new file mode 100644 index 0000000..4fda757 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegagamma.dec @@ -0,0 +1,27 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> omega gamma # +# | # +# -> X # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.0000 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +1.0000 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End + + diff --git a/BaBar_2014/B0B0bar_omegam3pi_eta.dec b/BaBar_2014/B0B0bar_omegam3pi_eta.dec new file mode 100644 index 0000000..f22e4d0 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegam3pi_eta.dec @@ -0,0 +1,43 @@ + ##################################################### + # # + # Decay: B0 -> omega eta B0bar -> X + c.c. # + # | # + # | # + # ! # + # ! -> pi+ pi- pi0 # + # # + # The eta decay is generic. # + # The decay is unspecified # + # # + # Author: John LoSecco # + # Created: 07/January/01 # + # Submitted by J. LoSecco (losecco@nd.edu) # + # Corrected B decay from PHSP to SVS 12/Feb/01 # + ##################################################### + + +# +# + +Alias Myomega omega +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.500 myB0 anti-B0 VSS; +0.500 B0 myantiB0 VSS; +Enddecay +# +Decay myB0 +1.0000 Myomega eta SVS; +Enddecay +# +Decay myantiB0 +1.0000 Myomega eta SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegam3pi_pi0.dec b/BaBar_2014/B0B0bar_omegam3pi_pi0.dec new file mode 100644 index 0000000..a18f491 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegam3pi_pi0.dec @@ -0,0 +1,43 @@ + ##################################################### + # # + # Decay: B0 -> omega pi0 B0bar -> X + c.c. # + # | # + # | # + # ! # + # ! -> pi+ pi- pi0 # + # # + # # + # # + # Author: John LoSecco # + # Created: 07/January/01 # + # Submitted by J. LoSecco (losecco@nd.edu) # + # Corrected decay from PHSP to SVS 12/Feb/01 # + ##################################################### + + +# +# + + +Alias Myomega omega +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +Decay Upsilon(4S) +0.500 myB0 anti-B0 VSS; +0.500 B0 myantiB0 VSS; +Enddecay +# +Decay myB0 +1.0000 Myomega pi0 SVS; +Enddecay +# +Decay myantiB0 +1.0000 Myomega pi0 SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaomega_ln.dec b/BaBar_2014/B0B0bar_omegaomega_ln.dec new file mode 100644 index 0000000..dd4af56 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaomega_ln.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B0 -> omega omega -> 2(pi+pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias Myomega omega +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 Myomega Myomega SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 Myomega Myomega SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_omegaomega_tr.dec b/BaBar_2014/B0B0bar_omegaomega_tr.dec new file mode 100644 index 0000000..3136b42 --- /dev/null +++ b/BaBar_2014/B0B0bar_omegaomega_tr.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B0 -> omega omega -> 2(pi+pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias Myomega omega +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 Myomega Myomega SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 Myomega Myomega SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKL.dec b/BaBar_2014/B0B0bar_phiKL.dec new file mode 100644 index 0000000..f5747c6 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKL.dec @@ -0,0 +1,36 @@ +############################################################ +# # +# Decay: anti-B0 -> phi K0L, B0 -> X # +# |-> K+K- # +# # +# + cc # +# # +# Author: T. Barillari # +# Created: 30/Jul/01 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_phiKL_phiK0LK0S.dec b/BaBar_2014/B0B0bar_phiKL_phiK0LK0S.dec new file mode 100644 index 0000000..edc8807 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKL_phiK0LK0S.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: anti-B0 -> phi KL0, B0 -> X # +# |-> K0LK0S |->pi+pi- # +# # +# + cc # +# # +# Author: Haibo Li # +# Created: 11/05/03 # +############################################################ +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_phiKS.dec b/BaBar_2014/B0B0bar_phiKS.dec new file mode 100644 index 0000000..8af48c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKS.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> phi K0s, B0 -> X # +# |-> K+K- |->pi+pi- # +# # +# + cc # +# # +# Author: G. London # +# Created: 09/Feb/99 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_phiKS_00.dec b/BaBar_2014/B0B0bar_phiKS_00.dec new file mode 100644 index 0000000..a6f9ded --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKS_00.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: anti-B0 -> phi K0s, B0 -> X # +# |-> K+K- |->pi0pi0 # +# # +# + cc # +# # +# Author: D. Dujmic # +# Created: 15/Jan/02 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi0 pi0 PHSP; +Enddecay +# +End + + + + diff --git a/BaBar_2014/B0B0bar_phiKSpi0.dec b/BaBar_2014/B0B0bar_phiKSpi0.dec new file mode 100644 index 0000000..8528aac --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKSpi0.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: B0 -> phi KS pi0 (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyPhi MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 MyPhi MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKppim.dec b/BaBar_2014/B0B0bar_phiKppim.dec new file mode 100644 index 0000000..4c35e80 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKppim.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B0 -> phi K+ pi- (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 MyPhi K+ pi- PHSP; +Enddecay +# +Decay MyB0bar +1.000 MyPhi K- pi+ PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKst1430_KLpi0.dec b/BaBar_2014/B0B0bar_phiKst1430_KLpi0.dec new file mode 100644 index 0000000..176c6ba --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKst1430_KLpi0.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> phi K*0(1430) -> (K+K-)(KLpi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# Modified by: Matt Graham # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K_2*0 +Alias MyK*0bar K_2*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyK*0 PHSP; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K_L0 pi0 TSS; +Enddecay +# +Decay MyK*0bar +1.0000 K_L0 pi0 TSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKst1430_Kppim.dec b/BaBar_2014/B0B0bar_phiKst1430_Kppim.dec new file mode 100644 index 0000000..0430388 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKst1430_Kppim.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> phi K*0(1430) -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K_2*0 +Alias MyK*0bar K_2*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyK*0 PHSP; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- TSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ TSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar.dec b/BaBar_2014/B0B0bar_phiKstar.dec new file mode 100644 index 0000000..d08d792 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar.dec @@ -0,0 +1,60 @@ +################################################################### +# B0~ --> phi K* B0 --> Generic # +# | |-->K0s pi0 # +# | | # +# | |-->pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 9/2/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +# +Define beta 0.39 +# +#Define the transversity amplitudes +Define Aplus 1.000 +Define Azero 1.000 +Define Aminus 1.000 +# +Define phAplus 0.0 +Define phAzero 0.0 +Define phAminus 0.0 +# +# Alias particles for specific decays +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyKstar0 K*0 +Alias MyPhi phi +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyPhi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyPhi MyKstar0 SVV_CP beta dm 1.0 Aplus phAplus Azero phAzero Aminus phAminus; +Enddecay +# psi --> e+e-/mu+mu- (100%) +Decay MyPhi +1.00000 K+ K- VSS; +Enddecay +# K* --> K0s pi0 (100%) +Decay MyKstar0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_phiKstar1430_K0LK0S_KSpi0.dec b/BaBar_2014/B0B0bar_phiKstar1430_K0LK0S_KSpi0.dec new file mode 100644 index 0000000..0d6e7f2 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar1430_K0LK0S_KSpi0.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> phi K*0(1430) -> (K0LK0S)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K_2*0 +Alias MyK*0bar K_2*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyK*0 PHSP; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 TSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 TSS; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_phiKstar_3piKSpi0_ln.dec b/BaBar_2014/B0B0bar_phiKstar_3piKSpi0_ln.dec new file mode 100644 index 0000000..daeec37 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_3piKSpi0_ln.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (pi+pi-pi0)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_3piKSpi0_tr.dec b/BaBar_2014/B0B0bar_phiKstar_3piKSpi0_tr.dec new file mode 100644 index 0000000..f2a4f0d --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_3piKSpi0_tr.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (pi+pi-pi0)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_3piKppim_ln.dec b/BaBar_2014/B0B0bar_phiKstar_3piKppim_ln.dec new file mode 100644 index 0000000..4a3a064 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_3piKppim_ln.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_3piKppim_tr.dec b/BaBar_2014/B0B0bar_phiKstar_3piKppim_tr.dec new file mode 100644 index 0000000..d579b78 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_3piKppim_tr.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_ln.dec b/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_ln.dec new file mode 100644 index 0000000..c4a541a --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_ln.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Keith Ulmer # +# e-mail: keith.ulmer@colorado.edu # +# Created: 03/19/2004 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_tr.dec b/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_tr.dec new file mode 100644 index 0000000..1183871 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_tr.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Keith Ulmer # +# e-mail: keith.ulmer@colorado.edu # +# Created: 03/19/2004 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_trodd.dec b/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_trodd.dec new file mode 100644 index 0000000..42a0bac --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_3pi_Kppim_trodd.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (pi+pi-pi0)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Keith Ulmer # +# e-mail: keith.ulmer@colorado.edu # +# Created: 03/19/2004 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Trans. CP-odd polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; *** +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_K0LK0S_KSpi0_ln.dec b/BaBar_2014/B0B0bar_phiKstar_K0LK0S_KSpi0_ln.dec new file mode 100644 index 0000000..cf5f22c --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_K0LK0S_KSpi0_ln.dec @@ -0,0 +1,62 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K0LK0S)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# +# Define my particles +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_phiKstar_K0LK0S_KSpi0_tr.dec b/BaBar_2014/B0B0bar_phiKstar_K0LK0S_KSpi0_tr.dec new file mode 100644 index 0000000..040908e --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_K0LK0S_KSpi0_tr.dec @@ -0,0 +1,62 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K0LK0S)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# +# Define my particles +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_phiKstar_KLpi0.dec b/BaBar_2014/B0B0bar_phiKstar_KLpi0.dec new file mode 100644 index 0000000..eb0d7a3 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KLpi0.dec @@ -0,0 +1,65 @@ +################################################### +# # +# B0 -> phi K*0 , B0~ -> X + c.c. # +# |-> KL pi0 # +# |-> K+K- # +# Author: Maha Krishnamurthy # +# e-mail: kmaha@slac.stanford.edu # +# Created: 2003/1/08 # +################################################### +# +# +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyPhi phi +Alias MyK_L0 K_L0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyPhi MyK*0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyPhi Myanti-K*0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.000 MyK_L0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 MyK_L0 pi0 VSS; +Enddecay +# + +End diff --git a/BaBar_2014/B0B0bar_phiKstar_KLpi0_ln.dec b/BaBar_2014/B0B0bar_phiKstar_KLpi0_ln.dec new file mode 100644 index 0000000..deb5a74 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KLpi0_ln.dec @@ -0,0 +1,62 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(KLpi0) # +# B0bar -> generic +cc # +# # +# Author: Maha Krishnamurthy # +# e-mail: kmaha@slac.stanford.edu # +# Created: 2003/01/08 # +# # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_L0 K_L0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_L0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_L0 pi0 VSS; +Enddecay +# +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_KLpi0_tr.dec b/BaBar_2014/B0B0bar_phiKstar_KLpi0_tr.dec new file mode 100644 index 0000000..02100cb --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KLpi0_tr.dec @@ -0,0 +1,62 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(KLpi0) # +# B0bar -> generic +cc # +# # +# Author: Maha Krishnamurthy # +# e-mail: kmaha@slac.stanford.edu # +# Created: 2003/01/08 # +# # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_L0 K_L0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_L0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_L0 pi0 VSS; +Enddecay +# + +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_KSpi0.dec b/BaBar_2014/B0B0bar_phiKstar_KSpi0.dec new file mode 100644 index 0000000..b97a2bb --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KSpi0.dec @@ -0,0 +1,68 @@ +################################################### +# # +# B0 -> phi K*0 , B0~ -> X + c.c. # +# |-> KS pi0 # +# |-> K+K- |-> pi+pi- # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 2000/03/21 # +################################################### +# +# +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyPhi MyK*0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyPhi Myanti-K*0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle1.dec b/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle1.dec new file mode 100644 index 0000000..e50dfb4 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle1.dec @@ -0,0 +1,81 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.2500, +# phi_perp = -0.2000, phi_paral = 2.5000 +# all Acp = 0 +# +Define Hplus1 0.1579 +Define Hzero1 0.7746 +Define Hminus1 0.6124 +Define phHplus1 0.6350 +Define phHzero1 0.0 +Define phHminus1 2.7493 +# +Define Hplus2 0.1579 +Define Hzero2 0.7746 +Define Hminus2 0.6124 +Define phHplus2 0.6350 +Define phHzero2 0.0 +Define phHminus2 2.7493 +# +# 'Vector -> Scalar + Scalar' +# write it in four lines in order to allow direct-CP model +# (different number of B0->phiK*0 and B0bar->phiK*0bar) +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 Hplus1 phHplus1 Hzero1 phHzero1 Hminus1 phHminus1; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle2.dec b/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle2.dec new file mode 100644 index 0000000..67d5cbd --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle2.dec @@ -0,0 +1,81 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/01/2004 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.1600, +# phi_perp = 0.0000, phi_paral = \pi +# all Acp = 0 +# +Define Hplus1 0.0636 +Define Hzero1 0.7746 +Define Hminus1 0.6293 +Define phHplus1 3.1415926 +Define phHzero1 0.0 +Define phHminus1 3.1415926 +# +Define Hplus2 0.0636 +Define Hzero2 0.7746 +Define Hminus2 0.6293 +Define phHplus2 3.1415926 +Define phHzero2 0.0 +Define phHminus2 3.1415926 +# +# 'Vector -> Scalar + Scalar' +# write it in four lines in order to allow direct-CP model +# (different number of B0->phiK*0 and B0bar->phiK*0bar) +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 Hplus1 phHplus1 Hzero1 phHzero1 Hminus1 phHminus1; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle3.dec b/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle3.dec new file mode 100644 index 0000000..0c4fb22 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KSpi0_angle3.dec @@ -0,0 +1,83 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/01/2004 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6512, f_perp = 0.2361, +# phi_perp = -0.3606, phi_paral = 2.4595 +# Acp_0 = -0.1376, Acp_perp = 0.2508 +# At_parl= -0.0172, At_0 = -0.1603 +# Acp = 0 +# +Define Hplus1 0.1193 +Define Hzero1 0.8607 +Define Hminus1 0.4949 +Define phHplus1 0.6 +Define phHzero1 0.0 +Define phHminus1 3.1 +# +Define Hplus2 0.1606 +Define Hzero2 0.7494 +Define Hminus2 0.6424 +Define phHplus2 -0.2 +Define phHzero2 0.0 +Define phHminus2 2.2 +# +# 'Vector -> Scalar + Scalar' +# write it in four lines in order to allow direct-CP model +# (different number of B0->phiK*0 and B0bar->phiK*0bar) +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 Hplus1 phHplus1 Hzero1 phHzero1 Hminus1 phHminus1; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_KSpi0_ln.dec b/BaBar_2014/B0B0bar_phiKstar_KSpi0_ln.dec new file mode 100644 index 0000000..cbd8578 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KSpi0_ln.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_KSpi0_odd.dec b/BaBar_2014/B0B0bar_phiKstar_KSpi0_odd.dec new file mode 100644 index 0000000..62c89b9 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KSpi0_odd.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Trans. odd polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 -1.0 0.0; *** +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_KSpi0_tr.dec b/BaBar_2014/B0B0bar_phiKstar_KSpi0_tr.dec new file mode 100644 index 0000000..a3e9646 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_KSpi0_tr.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K0pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define beta 0.39 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP beta dm 1.0 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_CP beta dm 1.0 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK*0bar +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_Kppim.dec b/BaBar_2014/B0B0bar_phiKstar_Kppim.dec new file mode 100644 index 0000000..f5dde08 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_Kppim.dec @@ -0,0 +1,65 @@ +################################################### +# # +# B0 -> phi K*0 , B0~ -> X + c.c. # +# |-> K+pi- # +# |-> K+K- # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 2000/03/21 # +################################################### +# +# +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyPhi phi +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 MyPhi MyK*0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Myanti-B0 +1.000 MyPhi Myanti-K*0 SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +0.500 K+ pi- VSS; +0.500 K- pi+ VSS; +Enddecay +# +Decay Myanti-K*0 +0.500 K- pi+ VSS; +0.500 K+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_Kppim_angle1.dec b/BaBar_2014/B0B0bar_phiKstar_Kppim_angle1.dec new file mode 100644 index 0000000..8860ccc --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_Kppim_angle1.dec @@ -0,0 +1,77 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyPhi phi +Define dm .464e12 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.2500, +# phi_perp = -0.2000, phi_paral = 2.5000 +# all Acp = 0 +# +Define Hplus1 0.1579 +Define Hzero1 0.7746 +Define Hminus1 0.6124 +Define phHplus1 0.6350 +Define phHzero1 0.0 +Define phHminus1 2.7493 +# +Define Hplus2 0.1579 +Define Hzero2 0.7746 +Define Hminus2 0.6124 +Define phHplus2 0.6350 +Define phHzero2 0.0 +Define phHminus2 2.7493 +# +# 'Vector -> Scalar + Scalar' +# write it in four lines in order to allow direct-CP model +# (different number of B0->phiK*0 and B0bar->phiK*0bar) +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_Kppim_angle2.dec b/BaBar_2014/B0B0bar_phiKstar_Kppim_angle2.dec new file mode 100644 index 0000000..86b0508 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_Kppim_angle2.dec @@ -0,0 +1,77 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyPhi phi +Define dm .464e12 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.1600, +# phi_perp = 0.0000, phi_paral = \pi +# all Acp = 0 +# +Define Hplus1 0.0636 +Define Hzero1 0.7746 +Define Hminus1 0.6293 +Define phHplus1 3.1415926 +Define phHzero1 0.0 +Define phHminus1 3.1415926 +# +Define Hplus2 0.0636 +Define Hzero2 0.7746 +Define Hminus2 0.6293 +Define phHplus2 3.1415926 +Define phHzero2 0.0 +Define phHminus2 3.1415926 +# +# 'Vector -> Scalar + Scalar' +# write it in four lines in order to allow direct-CP model +# (different number of B0->phiK*0 and B0bar->phiK*0bar) +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_Kppim_angle3.dec b/BaBar_2014/B0B0bar_phiKstar_Kppim_angle3.dec new file mode 100644 index 0000000..42566e8 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_Kppim_angle3.dec @@ -0,0 +1,79 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 +Alias MyPhi phi +Define dm .464e12 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6512, f_perp = 0.2361, +# phi_perp = -0.3606, phi_paral = 2.4595 +# Acp_0 = -0.1376, Acp_perp = 0.2508 +# At_parl= -0.0172, At_0 = -0.1603 +# Acp = 0 +# +Define Hplus1 0.1193 +Define Hzero1 0.8607 +Define Hminus1 0.4949 +Define phHplus1 0.6 +Define phHzero1 0.0 +Define phHminus1 3.1 +# +Define Hplus2 0.1606 +Define Hzero2 0.7494 +Define Hminus2 0.6424 +Define phHplus2 -0.2 +Define phHzero2 0.0 +Define phHminus2 2.2 +# +# 'Vector -> Scalar + Scalar' +# write it in four lines in order to allow direct-CP model +# (different number of B0->phiK*0 and B0bar->phiK*0bar) +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiKstar_Kppim_ln.dec b/BaBar_2014/B0B0bar_phiKstar_Kppim_ln.dec new file mode 100644 index 0000000..b7d8ef0 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_Kppim_ln.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_Kppim_odd.dec b/BaBar_2014/B0B0bar_phiKstar_Kppim_odd.dec new file mode 100644 index 0000000..ec53219 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_Kppim_odd.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Trans. odd polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; *** +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiKstar_Kppim_tr.dec b/BaBar_2014/B0B0bar_phiKstar_Kppim_tr.dec new file mode 100644 index 0000000..18eb85e --- /dev/null +++ b/BaBar_2014/B0B0bar_phiKstar_Kppim_tr.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B0 -> phi K*0 -> (K+K-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyPhi phi +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phigamma.dec b/BaBar_2014/B0B0bar_phigamma.dec new file mode 100644 index 0000000..97d2bc0 --- /dev/null +++ b/BaBar_2014/B0B0bar_phigamma.dec @@ -0,0 +1,39 @@ +############################################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | `-> phi(K+K-) gamma # +# | # +# `-> X # +# # +# # +# Author: Dieter Best (UC Ivine) best@slac.stanford.edu # +# Date : 13.July.2001 # +# # +############################################################################### +Alias myphi phi +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.0000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myantiB0 +1.0000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_phigamma_phiK0LK0S.dec b/BaBar_2014/B0B0bar_phigamma_phiK0LK0S.dec new file mode 100644 index 0000000..74fa823 --- /dev/null +++ b/BaBar_2014/B0B0bar_phigamma_phiK0LK0S.dec @@ -0,0 +1,43 @@ +############################################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | `-> phi(K0L K0S) gamma # +# | | # +# `-> X `-> pi+ pi- # +# # +# # +# Author: Dieter Best (UC Ivine) best@slac.stanford.edu # +# Date : 20.July.2001 # +# # +############################################################################### +Alias myphi phi +Alias myB0 B0 +Alias myantiB0 anti-B0 +Alias myK0S K_S0 +# +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.0000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myantiB0 +1.0000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +1.0000 myK0S K_L0 VSS; +Enddecay +# +Decay myK0S +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phigamma_phiRho0Pi0.dec b/BaBar_2014/B0B0bar_phigamma_phiRho0Pi0.dec new file mode 100644 index 0000000..cedf24c --- /dev/null +++ b/BaBar_2014/B0B0bar_phigamma_phiRho0Pi0.dec @@ -0,0 +1,38 @@ +############################################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | `-> phi(rho0 pi0) gamma # +# | # +# `-> X # +# # +# # +# Author: Dieter Best (UC Ivine) best@slac.stanford.edu # +# Date : 20.July.2001 # +# # +############################################################################### +Alias myphi phi +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.0000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay myantiB0 +1.0000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +1.0000 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phigamma_phiRhoPi.dec b/BaBar_2014/B0B0bar_phigamma_phiRhoPi.dec new file mode 100644 index 0000000..ad052eb --- /dev/null +++ b/BaBar_2014/B0B0bar_phigamma_phiRhoPi.dec @@ -0,0 +1,39 @@ +############################################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | `-> phi(rho+- pi+-) gamma # +# | # +# `-> X # +# # +# # +# Author: Dieter Best (UC Ivine) best@slac.stanford.edu # +# Date : 20.July.2001 # +# # +############################################################################### +Alias myphi phi +Alias myB0 B0 +Alias myantiB0 anti-B0 +# +ChargeConj myB0 myantiB0 +# +Decay Upsilon(4S) +1.000 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myantiB0 +1.000 myphi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +0.500 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0 ; +0.500 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phim3pimnoint_KS.dec b/BaBar_2014/B0B0bar_phim3pimnoint_KS.dec new file mode 100644 index 0000000..2704c5d --- /dev/null +++ b/BaBar_2014/B0B0bar_phim3pimnoint_KS.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: # +# B0 -> phi K0S, anti-B0 -> X # +# | | # +# -> pi+pi-pi0 -> pi+pi- # +# # +# + cc # +# # +# Three pi decay of phi as implemented at the moment # +# in DECAY.DEC, i.e., NO INTERFERENCE between rho pi # +# final states (this is in preparation...) # +# # +# Author: Thomas Schietinger # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/10 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyPhi +0.2800 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2800 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2800 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1600 pi+ pi- pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_phim3pimphsp_KS.dec b/BaBar_2014/B0B0bar_phim3pimphsp_KS.dec new file mode 100755 index 0000000..e07b3fb --- /dev/null +++ b/BaBar_2014/B0B0bar_phim3pimphsp_KS.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: # +# B0 -> phi K0S, anti-B0 -> X # +# | | # +# -> pi+pi-pi0 -> pi+pi- # +# # +# + cc # +# # +# Three pi decay of phi using phsp # +# # +# Author: Jonathon Coleman # +# e-mail: coleman@hep.ph.liv.ac.uk # +# Created: 2003/12/23 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay + + +Decay Myanti-B0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay + +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_phinKS.dec b/BaBar_2014/B0B0bar_phinKS.dec new file mode 100644 index 0000000..5838ea6 --- /dev/null +++ b/BaBar_2014/B0B0bar_phinKS.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: anti-B0 -> phi K0s, B0 -> X # +# |-> KL KS |->pi+pi- # +# # +# + cc # +# # +# Author: T. Barillari/S.Spanier # +# Created: 09/Feb/99 # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 MyPhi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K_L0 MyK_S0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0B0bar_phiomega_ln.dec b/BaBar_2014/B0B0bar_phiomega_ln.dec new file mode 100644 index 0000000..91e1fc0 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiomega_ln.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Decay: B0 -> phi omega -> (K+K-)(pi+pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Alias Myomega omega +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi Myomega SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi Myomega SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiomega_tr.dec b/BaBar_2014/B0B0bar_phiomega_tr.dec new file mode 100644 index 0000000..901a5ee --- /dev/null +++ b/BaBar_2014/B0B0bar_phiomega_tr.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Decay: B0 -> phi omega -> (K+K-)(pi+pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Alias Myomega omega +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi Myomega SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi Myomega SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phiphi.dec b/BaBar_2014/B0B0bar_phiphi.dec new file mode 100644 index 0000000..5ec8547 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiphi.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: B0 -> phi phi -> (K+K-)(K+K-) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: guoqh@student.physics.upenn.edu # +# Created: 11/16/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyPhi SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyPhi SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiphi_ln.dec b/BaBar_2014/B0B0bar_phiphi_ln.dec new file mode 100644 index 0000000..36b3714 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiphi_ln.dec @@ -0,0 +1,49 @@ +############################################################ +# # +# Decay: B0 -> phi phi -> (K+K-)(K+K-) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: guoqh@student.physics.upenn.edu # +# Created: 11/16/2000 # +# Changed: 09/25/2001 by Andrei Gritsan # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi MyPhi SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyPhi SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiphi_tr.dec b/BaBar_2014/B0B0bar_phiphi_tr.dec new file mode 100644 index 0000000..59f0cd7 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiphi_tr.dec @@ -0,0 +1,49 @@ +############################################################ +# # +# Decay: B0 -> phi phi -> (K+K-)(K+K-) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: guoqh@student.physics.upenn.edu # +# Created: 11/16/2000 # +# Changed: 09/25/2001 by Andrei Gritsan # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyPhi SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyPhi SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_phiphiks.dec b/BaBar_2014/B0B0bar_phiphiks.dec new file mode 100644 index 0000000..bb9ec82 --- /dev/null +++ b/BaBar_2014/B0B0bar_phiphiks.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Decay: B0 -> phi phi -> (K+K-)(K+K-) # +# B0bar -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: guoqh@student.physics.upenn.edu # +# Created: 11/16/2000 # +# Changed: 09/25/2001 by Andrei Gritsan # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Alias MyK_S0 K_S0 +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi MyPhi MyK_S0 PHSP; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi MyPhi MyK_S0 PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# + +End + + diff --git a/BaBar_2014/B0B0bar_phirho0.dec b/BaBar_2014/B0B0bar_phirho0.dec new file mode 100644 index 0000000..a34d3dc --- /dev/null +++ b/BaBar_2014/B0B0bar_phirho0.dec @@ -0,0 +1,43 @@ +############################################################ +# # +# Decay: B0 -> phi rho0 -> (K+K-)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phirho0_ln.dec b/BaBar_2014/B0B0bar_phirho0_ln.dec new file mode 100644 index 0000000..d76d5b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_phirho0_ln.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: B0 -> phi rho0 -> (K+K-)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 MyPhi rho0 SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi rho0 SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_phirho0_tr.dec b/BaBar_2014/B0B0bar_phirho0_tr.dec new file mode 100644 index 0000000..1851a24 --- /dev/null +++ b/BaBar_2014/B0B0bar_phirho0_tr.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: B0 -> phi rho0 -> (K+K-)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyPhi phi +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Transverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 MyPhi rho0 SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 MyPhi rho0 SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pi02K0s.dec b/BaBar_2014/B0B0bar_pi02K0s.dec new file mode 100644 index 0000000..ff40edb --- /dev/null +++ b/BaBar_2014/B0B0bar_pi02K0s.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> pi0 K0s K0s (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> pi0 K0s K0s (non-resonant) +# using phase space +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi0 K_S0 K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi0 K_S0 K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pi0D0_k3pi.dec b/BaBar_2014/B0B0bar_pi0D0_k3pi.dec new file mode 100644 index 0000000..9e27179 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0D0_k3pi.dec @@ -0,0 +1,43 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 pi0 # +# | # +# | # +# |->K-pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + + +Decay Myanti-B0 +1.00 MyD0 pi0 PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 pi0 PHSP; +Enddecay + + + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_pi0D0_kpi.dec b/BaBar_2014/B0B0bar_pi0D0_kpi.dec new file mode 100644 index 0000000..d3683ec --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0D0_kpi.dec @@ -0,0 +1,43 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 pi0 # +# | # +# |-> D0 pi0 # +# | # +# | # +# K-pi+ # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 pi0 PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 pi0 PHSP; +Enddecay + + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_pi0D0_kpipi0.dec b/BaBar_2014/B0B0bar_pi0D0_kpipi0.dec new file mode 100644 index 0000000..ad48ccd --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0D0_kpipi0.dec @@ -0,0 +1,43 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 pi0 # +# | # +# |-> D0 pi0 # +# | # +# | # +# K-pi+ pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD0 pi0 PHSP; +Enddecay + +Decay MyB0 +1.00 MyantiD0 pi0 PHSP; +Enddecay + + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_k3pi.dec b/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_k3pi.dec new file mode 100644 index 0000000..9f8d2ff --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_k3pi.dec @@ -0,0 +1,58 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 pi0 # +# | # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+ pi+pi- # +# # +# # +# # +# Author:Maha K # +# created:08/09/00 # +# # +##################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 pi0 SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_kpi.dec b/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_kpi.dec new file mode 100644 index 0000000..feeea23 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_kpi.dec @@ -0,0 +1,58 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 pi0 # +# | # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K-pi+ # +# # +# # +# # +# Author:Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 pi0 SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +End + + + diff --git a/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_kpipi0.dec b/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_kpipi0.dec new file mode 100644 index 0000000..11d9d40 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0Dstar0_D0gamma_kpipi0.dec @@ -0,0 +1,57 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 pi0 # +# | # +# | # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+ pi0 # +# # +# # +# # +# Author:Maha K # +# created:08/09/00 # +# # +##################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 pi0 SVS; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_k3pi.dec b/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_k3pi.dec new file mode 100644 index 0000000..ea7f839 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_k3pi.dec @@ -0,0 +1,54 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 pi0 # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K+ pi+pi+pi- # +# # +# # +# # +# Author:Maha K # +# created: 08/09/00 # +# # +##################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 pi0 SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpi.dec b/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpi.dec new file mode 100644 index 0000000..62f5e95 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpi.dec @@ -0,0 +1,55 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 pi0 # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K+ pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 pi0 SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpipi0.dec b/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpipi0.dec new file mode 100644 index 0000000..339de89 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0Dstar0_D0pi0_kpipi0.dec @@ -0,0 +1,54 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 pi0 # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+ pi0 # +# # +# # +# # +# Author: Maha K # +# created: 08/09/00 # +# # +##################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 pi0 SVS; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_pi0f0.dec b/BaBar_2014/B0B0bar_pi0f0.dec new file mode 100644 index 0000000..6e8f196 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0f0.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B0 -> f0(980) pi0 + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> f0(980) pi0 using SSS_CP model +# (scalar -> 2 scalars with CP interference) +# The f0 decays to pi+ pi- using phase space +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf0 f_0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.000 Myf0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myf0 +1.000 pi- pi+ PHSP; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_pi0f2.dec b/BaBar_2014/B0B0bar_pi0f2.dec new file mode 100644 index 0000000..0063cc9 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0f2.dec @@ -0,0 +1,40 @@ +################################################### +# # +# B0 -> f2(1270) pi0 + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> f2(1270) pi0 using the SSD_CP model +# (scalar -> tensor scalar with CP interference) +# The f2 decays to pi+ pi- using the TSS model +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myf2 f_2 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myf2 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.000 Myf2 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myf2 +1.000 pi- pi+ TSS; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_pi0phi_phiKK.dec b/BaBar_2014/B0B0bar_pi0phi_phiKK.dec new file mode 100644 index 0000000..4289580 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0phi_phiKK.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B0 -> phi pi0 + c.c. # +# | # +# | # +# `--> K+ K- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B0 -> phi pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The phi decays to K+ K- (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myphi phi +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myphi pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myphi pi0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pi0pi0.dec b/BaBar_2014/B0B0bar_pi0pi0.dec new file mode 100644 index 0000000..d273fe1 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0pi0.dec @@ -0,0 +1,26 @@ +################################################### +# # +# Decay: B0 -> pi0 pi0 + cc # +# # +# Author: G. London # +# Created: 2/2/99 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay MyB0 +1.0000 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pi0pi0Kstar_Kppim.dec b/BaBar_2014/B0B0bar_pi0pi0Kstar_Kppim.dec new file mode 100644 index 0000000..325fa95 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0pi0Kstar_Kppim.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B0 -> pi0 pi0 K*0 (K+pi-) (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Sandrine Emery # +# e-mail: emery@slac.stanford.edu # +# Created: 23/07/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi0 pi0 MyK*0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 pi0 pi0 MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pi0pi0eta.dec b/BaBar_2014/B0B0bar_pi0pi0eta.dec new file mode 100644 index 0000000..b02922b --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0pi0eta.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B0 -> pi0 pi0 eta # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B0 -> pi0 pi0 eta +# using phase space model (PHSP) +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi0 pi0 eta PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi0 pi0 eta PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pi0rho0.dec b/BaBar_2014/B0B0bar_pi0rho0.dec new file mode 100644 index 0000000..f4db748 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0rho0.dec @@ -0,0 +1,39 @@ +################################################### +# # +# B0 -> rho0 pi0 + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> rho0 pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi+ pi- (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho0 rho0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho0 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho0 pi0 SVS; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pi0rho1450.dec b/BaBar_2014/B0B0bar_pi0rho1450.dec new file mode 100644 index 0000000..e09851b --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0rho1450.dec @@ -0,0 +1,39 @@ +################################################### +# # +# B0 -> rho0(1450) pi0 + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> rho0(1450) pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi+ pi- (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho0 rho(2S)0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho0 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho0 pi0 SVS; +Enddecay +# +Decay Myrho0 +1.000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_pi0rho1700.dec b/BaBar_2014/B0B0bar_pi0rho1700.dec new file mode 100644 index 0000000..a1fefaa --- /dev/null +++ b/BaBar_2014/B0B0bar_pi0rho1700.dec @@ -0,0 +1,39 @@ +################################################### +# # +# B0 -> rho0(1700) pi0 + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> rho0(1700) pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi+ pi- (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho0 rho(3S)0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho0 pi0 SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho0 pi0 SVS; +Enddecay +# +Decay Myrho0 +1.000 pi- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/B0B0bar_pi1300mpip.dec b/BaBar_2014/B0B0bar_pi1300mpip.dec new file mode 100755 index 0000000..4778348 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi1300mpip.dec @@ -0,0 +1,52 @@ +################################################### +# # +# Decay: anti-B0 -> pi(2S)- pi+ + cc # +# # +# Author: Vincenzo Lombardo(Milano) # +# Date: 11 July 2004 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias mypi1300+ pi(2S)+ +Alias mypi1300- pi(2S)- +Alias Myrho0 rho0 +ChargeConj mypi1300+ mypi1300- + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 mypi1300- pi+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mypi1300- +1.0000 Myrho0 pi- PHSP; +Enddecay +# +Decay MyB0 +1.0000 mypi1300+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mypi1300+ +1.0000 Myrho0 pi+ PHSP; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/B0B0bar_pi_DmKlpi.dec b/BaBar_2014/B0B0bar_pi_DmKlpi.dec new file mode 100644 index 0000000..2bc6b83 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DmKlpi.dec @@ -0,0 +1,44 @@ +##################################################### +# # +# Decay: B0 -> D- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> Kl pi- # +# + cc # +# # +# Author: M Graham # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.00 MyD+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K_L0 pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 K_L0 pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_pi_DmKpipi.dec b/BaBar_2014/B0B0bar_pi_DmKpipi.dec new file mode 100644 index 0000000..7bdb514 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DmKpipi.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B0 -> D- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> K+ pi- pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.00 MyD+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_pi_DmKspi.dec b/BaBar_2014/B0B0bar_pi_DmKspi.dec new file mode 100644 index 0000000..44f9d9d --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DmKspi.dec @@ -0,0 +1,52 @@ +##################################################### +# # +# Decay: B0 -> D- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> Ks pi- # +# |-> pi+ pi- # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyKs K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 +1.00 MyD+ pi- PHSP; +Enddecay +# +Decay MyD- +1.0000 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 MyKs pi+ PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# + +# +End + diff --git a/BaBar_2014/B0B0bar_pi_DstarmpiD0bar_Kmepnu.dec b/BaBar_2014/B0B0bar_pi_DstarmpiD0bar_Kmepnu.dec new file mode 100644 index 0000000..520f345 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DstarmpiD0bar_Kmepnu.dec @@ -0,0 +1,75 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K- e+ nu_bar # +# # +# + cc # +# # +# Author: M. D. Sokoloff # +# created: 25 August 01 # +# # +# derived from: # +# B0B0bar_pi_Dstar-piD0bar-Kpi.dec # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +# and from: # +# # +# ccbar_Dstar+_D0pi_K-e+nu.dec # +# Author: Kevin Flood # +# created 04 November 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ e- anti-nu_e ISGW2; +Enddecay +# +#Decay MyD0 +#1.00 K- pi+ PHSP; +#Enddecay + +Decay MyD0 +1.00 K- e+ nu_e ISGW2; +Enddecay +# +# +End + diff --git a/BaBar_2014/B0B0bar_pi_DstarmpiD0barmK3pi.dec b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmK3pi.dec new file mode 100644 index 0000000..a1522f3 --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmK3pi.dec @@ -0,0 +1,56 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- pi+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# |-> D0bar pi- +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKpi.dec b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKpi.dec new file mode 100644 index 0000000..a1bc0ed --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKpi.dec @@ -0,0 +1,57 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKpipi0.dec b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKpipi0.dec new file mode 100644 index 0000000..573c88d --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKpipi0.dec @@ -0,0 +1,57 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- pi0 # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi0 D_DALITZ; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKspipi.dec b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKspipi.dec new file mode 100644 index 0000000..3660c8f --- /dev/null +++ b/BaBar_2014/B0B0bar_pi_DstarmpiD0barmKspipi.dec @@ -0,0 +1,74 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- pi+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ pi- SVS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# + +# +End + diff --git a/BaBar_2014/B0B0bar_pilnu.dec b/BaBar_2014/B0B0bar_pilnu.dec new file mode 100644 index 0000000..29c331b --- /dev/null +++ b/BaBar_2014/B0B0bar_pilnu.dec @@ -0,0 +1,35 @@ +############################################################################### +# This is a DECAY.DEC file for B0 (bar) -> pi l nu : # +# Up(4S) -> B0 B0bar +CC # +# | | # +# | -> pi+ l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# # +# Mail: NATALIA@SLAC.STANFORD.EDU +############################################################################### +# Create our own versions of B0, B0bar which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to pi l nu +# +Decay myantiB0 +0.500 pi+ e- anti-nu_e PHOTOS ISGW2; +0.500 pi+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +Decay myB0 +0.500 pi- e+ nu_e PHOTOS ISGW2; +0.500 pi- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pilnu_FLATQ2.dec b/BaBar_2014/B0B0bar_pilnu_FLATQ2.dec new file mode 100644 index 0000000..8bc5c52 --- /dev/null +++ b/BaBar_2014/B0B0bar_pilnu_FLATQ2.dec @@ -0,0 +1,37 @@ +############################################################################### +# This is a DECAY.DEC file for phase space decays of B -> pi+ l nu: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> pi+ l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# # +# CONTACT: cote@slac.stanford.edu # +# # +############################################################################### +# Create our own versions of B0, B0bar which will decay to pi l nu +# and specify that they should be treated as antiparticles +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to pi l nu +# +Decay myantiB0 +0.500 pi+ e- anti-nu_e FLATQ2; +0.500 pi+ mu- anti-nu_mu FLATQ2; +Enddecay +Decay myB0 +0.500 pi- e+ nu_e FLATQ2; +0.500 pi- mu+ nu_mu FLATQ2; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_pilnu_phsp.dec b/BaBar_2014/B0B0bar_pilnu_phsp.dec new file mode 100644 index 0000000..dbc4a81 --- /dev/null +++ b/BaBar_2014/B0B0bar_pilnu_phsp.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for phase space decays of B -> pi+ l nu: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> pi+ l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# # +# # +# CONTACT: cote@slac.stanford.edu # +############################################################################### +# Create our own versions of B0, B0bar which will decay to pi l nu +# and specify that they should be treated as antiparticles +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to pi l nu +# +Decay myantiB0 +0.500 pi+ e- anti-nu_e PHOTOS PHSP; +0.500 pi+ mu- anti-nu_mu PHOTOS PHSP; +Enddecay +Decay myB0 +0.500 pi- e+ nu_e PHOTOS PHSP; +0.500 pi- mu+ nu_mu PHOTOS PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pimrho1450p.dec b/BaBar_2014/B0B0bar_pimrho1450p.dec new file mode 100644 index 0000000..1001dde --- /dev/null +++ b/BaBar_2014/B0B0bar_pimrho1450p.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> rho+(1450) pi- + c.c. # +# | # +# | # +# ---> pi+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> rho+(1450) pi- +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho+ rho(2S)+ +Alias Myrho- rho(2S)- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho+ pi- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho- pi+ SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pimrho1700p.dec b/BaBar_2014/B0B0bar_pimrho1700p.dec new file mode 100644 index 0000000..2114388 --- /dev/null +++ b/BaBar_2014/B0B0bar_pimrho1700p.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> rho+(1700) pi- + c.c. # +# | # +# | # +# ---> pi+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> rho+(1700) pi- +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho+ rho(3S)+ +Alias Myrho- rho(3S)- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho+ pi- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho- pi+ SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pippim.dec b/BaBar_2014/B0B0bar_pippim.dec new file mode 100644 index 0000000..890c06e --- /dev/null +++ b/BaBar_2014/B0B0bar_pippim.dec @@ -0,0 +1,30 @@ +################################################### +# # +# Decay: anti-B0 -> pi+ pi-, B0 -> X # +# # +# + cc # +# # +# Author: Adil Hasan # +# Date: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified/corrected G.London 2/2/99 # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay Myanti-B0 +1.0000 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pippim2pi0.dec b/BaBar_2014/B0B0bar_pippim2pi0.dec new file mode 100644 index 0000000..bf39feb --- /dev/null +++ b/BaBar_2014/B0B0bar_pippim2pi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> pi+ pi- pi0 pi0 # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B0 -> pi+ pi- pi0 pi0 +# using phase space model (PHSP) +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi+ pi- pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pippimKstar_Kppim.dec b/BaBar_2014/B0B0bar_pippimKstar_Kppim.dec new file mode 100644 index 0000000..ff5c37c --- /dev/null +++ b/BaBar_2014/B0B0bar_pippimKstar_Kppim.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B0 -> pi+ pi- K*0 (K+pi-) (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- MyK*0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 pi+ pi- MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pippim_direct.p0.41.p0.78.dec b/BaBar_2014/B0B0bar_pippim_direct.p0.41.p0.78.dec new file mode 100644 index 0000000..bd0d654 --- /dev/null +++ b/BaBar_2014/B0B0bar_pippim_direct.p0.41.p0.78.dec @@ -0,0 +1,34 @@ +################################################### +# # +# Decay: anti-B0 -> pi+ pi-, B0 -> X + cc # +# # +# # +# Author: # +# Date: # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Define alpha 0.7854 +Define lambda 0.414 +# +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 pi+ pi- SSS_CP alpha dm 1 1.0 0.0 lambda 0.0 ; +Enddecay +Decay Myanti-B0 +1.0000 pi+ pi- SSS_CP alpha dm 1 1.0 0.0 lambda 0.0 ; +Enddecay + +# +End + + + diff --git a/BaBar_2014/B0B0bar_pippim_direct.p2.41.p0.78.dec b/BaBar_2014/B0B0bar_pippim_direct.p2.41.p0.78.dec new file mode 100644 index 0000000..520b2c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_pippim_direct.p2.41.p0.78.dec @@ -0,0 +1,34 @@ +################################################### +# # +# Decay: anti-B0 -> pi+ pi-, B0 -> X + cc # +# # +# # +# Author: # +# Date: # +################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Define alpha 0.7854 +Define lambda 2.41 +# +# +Decay Upsilon(4S) +0.415 MyB0 anti-B0 VSS_MIX dm; +0.415 Myanti-B0 B0 VSS_MIX dm; +0.085 Myanti-B0 anti-B0 VSS_MIX dm; +0.085 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 pi+ pi- SSS_CP alpha dm 1 1.0 0.0 lambda 0.0 ; +Enddecay +Decay Myanti-B0 +1.0000 pi+ pi- SSS_CP alpha dm 1 1.0 0.0 lambda 0.0 ; +Enddecay + +# +End + + + diff --git a/BaBar_2014/B0B0bar_pippim_m0.57_m0.82.dec b/BaBar_2014/B0B0bar_pippim_m0.57_m0.82.dec new file mode 100644 index 0000000..be25554 --- /dev/null +++ b/BaBar_2014/B0B0bar_pippim_m0.57_m0.82.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: anti-B0 -> pi+ pi-, B0 -> X # +# # +# + cc # +# # +# Author: Adil Hasan # +# Date: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified/corrected G.London 2/2/99 # +# Modified N. Danielson 28/May/03 - Generate C=-0.57, S=-0.82 +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Assuming +# Define beta 0.39 +# Define gamma 1.387 +# These numbers will change if you change beta or gamma. +# As it is, they give C=-0.57, S=-0.82 +Decay MyB0 +1.0000 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 0.8850 0.1414 1.691 -0.71271; +Enddecay +# +Decay Myanti-B0 +1.0000 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 0.8850 0.1414 1.691 -0.71271; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pippim_p0.57_m0.82.dec b/BaBar_2014/B0B0bar_pippim_p0.57_m0.82.dec new file mode 100644 index 0000000..e9809b8 --- /dev/null +++ b/BaBar_2014/B0B0bar_pippim_p0.57_m0.82.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: anti-B0 -> pi+ pi-, B0 -> X # +# # +# + cc # +# # +# Author: Adil Hasan # +# Date: 12/April/98 # +# Modified/corrected 10/May/98 # +# Modified/corrected G.London 2/2/99 # +# Modified N. Danielson 28/May/03 - Generate C=+0.57, S=-0.82 +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# Assuming +# Define beta 0.39 +# Define gamma 1.387 +# These numbers will change if you change beta or gamma. +# As it is, they give C=+0.57, S=-0.82 +Decay MyB0 +1.0000 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.691 0.71271 0.885 -0.1437; +Enddecay +# +Decay Myanti-B0 +1.0000 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.691 0.71271 0.885 -0.1437; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pippimpi0pi0.dec b/BaBar_2014/B0B0bar_pippimpi0pi0.dec new file mode 100644 index 0000000..bf39feb --- /dev/null +++ b/BaBar_2014/B0B0bar_pippimpi0pi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> pi+ pi- pi0 pi0 # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B0 -> pi+ pi- pi0 pi0 +# using phase space model (PHSP) +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 pi+ pi- pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 pi+ pi- pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_piprho1450m.dec b/BaBar_2014/B0B0bar_piprho1450m.dec new file mode 100644 index 0000000..e1877e3 --- /dev/null +++ b/BaBar_2014/B0B0bar_piprho1450m.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> rho-(1450) pi+ + c.c. # +# | # +# | # +# ---> pi- pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> rho-(1450) pi+ +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho+ rho(2S)+ +Alias Myrho- rho(2S)- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho+ pi- SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_piprho1700m.dec b/BaBar_2014/B0B0bar_piprho1700m.dec new file mode 100644 index 0000000..dfec800 --- /dev/null +++ b/BaBar_2014/B0B0bar_piprho1700m.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> rho-(1700) pi+ + c.c. # +# | # +# | # +# ---> pi- pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 07/Aug/01 # +# # +################################################### +# +# Decay table for B0 -> rho-(1700) pi+ +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho+ rho(3S)+ +Alias Myrho- rho(3S)- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho+ pi- SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pirho_1.dec b/BaBar_2014/B0B0bar_pirho_1.dec new file mode 100644 index 0000000..6aff4d7 --- /dev/null +++ b/BaBar_2014/B0B0bar_pirho_1.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> rho+ pi- + c.c. # +# | # +# | # +# ---> pi+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> rho+ pi- +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho+ rho+ +Alias Myrho- rho- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho+ pi- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho- pi+ SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pirho_2.dec b/BaBar_2014/B0B0bar_pirho_2.dec new file mode 100644 index 0000000..810ca49 --- /dev/null +++ b/BaBar_2014/B0B0bar_pirho_2.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B0 -> rho- pi+ + c.c. # +# | # +# | # +# ---> pi- pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B0 -> rho- pi+ +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho- decays to pi- pi0 (using a simple VSS model). +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Myrho+ rho+ +Alias Myrho- rho- +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Myrho- pi+ SVS; +Enddecay +# +Decay Myanti-B0 +1.000 Myrho+ pi- SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_pmLambda_cp.dec b/BaBar_2014/B0B0bar_pmLambda_cp.dec new file mode 100644 index 0000000..cf609c8 --- /dev/null +++ b/BaBar_2014/B0B0bar_pmLambda_cp.dec @@ -0,0 +1,58 @@ +#################################################### +# # +# Decay: anti-B0 -> Lambda_c+ anti-p-, B0 -> X # +# | # +# |-> p+ K pi # +# |-> p+ Ks # +# + cc |-> p+ K*0 # +# # +# Initial version modified from B0B0bar_p+p-.dec # +# Use phase space for now # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias MyK_S0 K_S0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 p+ Myanti-Lc PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 MyLc anti-p- PHSP; +Enddecay +# +Decay MyLc +0.02800 p+ K- pi+ PHSP; +0.01150 p+ MyK_S0 PHSP; +0.01600 p+ MyantiKstar0 PHSP; +Enddecay +# +Decay Myanti-Lc +0.02800 anti-p- K+ pi- PHSP; +0.01150 anti-p- MyK_S0 PHSP; +0.01600 anti-p- MyKstar0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_pmLambda_cppippim_Lambda3pi.dec b/BaBar_2014/B0B0bar_pmLambda_cppippim_Lambda3pi.dec new file mode 100644 index 0000000..6924b16 --- /dev/null +++ b/BaBar_2014/B0B0bar_pmLambda_cppippim_Lambda3pi.dec @@ -0,0 +1,52 @@ +############################################################## +# # +# Decay: B0 -> Lambda_c- proton pi+pi-, anti-B0->X # +# | # +# |-> Lambdabar pi+ pi- pi- (100%) # +# | # +# |-> anti-proton pi+ (100%) # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +############################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias My-anti-Lambda0 anti-Lambda0 +Alias My-Lambda0 Lambda0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-Lc p+ pi+ pi- PHSP; +Enddecay +# // phase space here +Decay Myanti-B0 + 1.00000 MyLc anti-p- pi+ pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 My-Lambda0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 My-anti-Lambda0 pi+ pi- pi- PHSP; +Enddecay +# +Decay My-Lambda0 + 1.00000 p+ pi- PHSP; +Enddecay +# +Decay My-anti-Lambda0 + 1.00000 anti-p- pi+ PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/B0B0bar_pmLambda_cppippim_Lambdapip.dec b/BaBar_2014/B0B0bar_pmLambda_cppippim_Lambdapip.dec new file mode 100644 index 0000000..32343c2 --- /dev/null +++ b/BaBar_2014/B0B0bar_pmLambda_cppippim_Lambdapip.dec @@ -0,0 +1,52 @@ +############################################################## +# # +# Decay: B0 -> Lambda_c- proton pi+pi-, anti-B0->X # +# | # +# |-> Lambdabar pi- (100%) # +# | # +# |-> anti-proton pi+ (100%) # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +############################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias My-anti-Lambda0 anti-Lambda0 +Alias My-Lambda0 Lambda0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-Lc p+ pi+ pi- PHSP; +Enddecay +# // phase space here +Decay Myanti-B0 + 1.00000 MyLc anti-p- pi+ pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 My-Lambda0 pi+ PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 My-anti-Lambda0 pi- PHSP; +Enddecay +# +Decay My-Lambda0 + 1.00000 p+ pi- PHSP; +Enddecay +# +Decay My-anti-Lambda0 + 1.00000 anti-p- pi+ PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/B0B0bar_pmLambda_cppippim_protonkpi.dec b/BaBar_2014/B0B0bar_pmLambda_cppippim_protonkpi.dec new file mode 100644 index 0000000..138429c --- /dev/null +++ b/BaBar_2014/B0B0bar_pmLambda_cppippim_protonkpi.dec @@ -0,0 +1,40 @@ +#################################################### +# # +# Decay: B0 -> Lambda_c- proton pi+pi-, anti-B0->X# +# | # +# |-> anti-p K+ pi- # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-Lc p+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyLc anti-p- pi+ pi- PHSP; +Enddecay +# // resonance structure in Dalitz not modeled +Decay MyLc + 1.00000 p+ K- pi+ PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 anti-p- K+ pi- PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/B0B0bar_pmLambda_cppippim_protonks.dec b/BaBar_2014/B0B0bar_pmLambda_cppippim_protonks.dec new file mode 100644 index 0000000..0f9677f --- /dev/null +++ b/BaBar_2014/B0B0bar_pmLambda_cppippim_protonks.dec @@ -0,0 +1,57 @@ +#################################################### +# # +# Decay: B0 -> Lambda_c- proton pi+pi-, anti-B0->X# +# | # +# |-> anti-p K_0S (100%) # +# | # +# |-> pi+pi-(100%)# +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +#################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-Lc p+ pi+ pi- PHSP; +Enddecay +# // phase space here +Decay Myanti-B0 + 1.00000 MyLc anti-p- pi+ pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 p+ Myanti-K0 PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 anti-p- MyK0 PHSP; +Enddecay +# +Decay MyK0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.0000 pi+ pi- PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/B0B0bar_pmLambda_cppippim_protonks2pi.dec b/BaBar_2014/B0B0bar_pmLambda_cppippim_protonks2pi.dec new file mode 100644 index 0000000..02adefc --- /dev/null +++ b/BaBar_2014/B0B0bar_pmLambda_cppippim_protonks2pi.dec @@ -0,0 +1,57 @@ +############################################################## +# # +# Decay: B0 -> Lambda_c- proton pi+pi-, anti-B0->X # +# | # +# |-> anti-proton K_0S pi+ pi- (100%) # +# | # +# |-> pi+ pi- (100%) # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +############################################################## +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +# // Phase Space model +Decay MyB0 + 1.00000 Myanti-Lc p+ pi+ pi- PHSP; +Enddecay +# // phase space here +Decay Myanti-B0 + 1.00000 MyLc anti-p- pi+ pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 p+ Myanti-K0 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 anti-p- MyK0 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.0000 pi+ pi- PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/B0B0bar_ppbarK0star1430_chrg.dec b/BaBar_2014/B0B0bar_ppbarK0star1430_chrg.dec new file mode 100644 index 0000000..65b83d7 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarK0star1430_chrg.dec @@ -0,0 +1,42 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar K0star0(1430) # +# | # +# -> K pi # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: Dec16 2003 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyKstar0 K_0*0 +Alias MyantiKstar0 anti-K_0*0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- MyKstar0 PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- MyantiKstar0 PHSP; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarK1270.dec b/BaBar_2014/B0B0bar_ppbarK1270.dec new file mode 100644 index 0000000..bce0e78 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarK1270.dec @@ -0,0 +1,30 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar K(1270) # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: Dec16 2003 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- K_10 PHSP; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- anti-K_10 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarK2star1430_chrg.dec b/BaBar_2014/B0B0bar_ppbarK2star1430_chrg.dec new file mode 100644 index 0000000..e0b7c03 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarK2star1430_chrg.dec @@ -0,0 +1,42 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar K2star0(1430) # +# | # +# -> K pi # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: Dec16 2003 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyKstar0 K_2*0 +Alias MyantiKstar0 anti-K_2*0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- MyKstar0 PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- TSS; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- MyantiKstar0 PHSP; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ TSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarK3star1780_chrg.dec b/BaBar_2014/B0B0bar_ppbarK3star1780_chrg.dec new file mode 100644 index 0000000..7f83378 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarK3star1780_chrg.dec @@ -0,0 +1,42 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar K3star0(1780) # +# | # +# -> K pi # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: Dec16 2003 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyKstar0 K_3*0 +Alias MyantiKstar0 anti-K_3*0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- MyKstar0 PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- MyantiKstar0 PHSP; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarKS.dec b/BaBar_2014/B0B0bar_ppbarKS.dec new file mode 100644 index 0000000..271804a --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarKS.dec @@ -0,0 +1,35 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar K0S # +# # +# Author: Dieter Best, UCI (best@slac.stanford.edu) # +# Created: 17.July.2002 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyK_S0 K_S0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- MyK_S0 PHSP; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarKpi.dec b/BaBar_2014/B0B0bar_ppbarKpi.dec new file mode 100644 index 0000000..34b670d --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarKpi.dec @@ -0,0 +1,31 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar K+ pi- # +# # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: 30 June 03 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- K+ pi- PHSP; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarKstar.dec b/BaBar_2014/B0B0bar_ppbarKstar.dec new file mode 100644 index 0000000..754bac4 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarKstar.dec @@ -0,0 +1,42 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar Kstar0 # +# | # +# -> K pi # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: 30 June 03 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- MyKstar0 PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- MyantiKstar0 PHSP; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarKstar1680_chrg.dec b/BaBar_2014/B0B0bar_ppbarKstar1680_chrg.dec new file mode 100644 index 0000000..32202b7 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarKstar1680_chrg.dec @@ -0,0 +1,42 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar Kstar0(1680) # +# | # +# -> K pi # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: Dec16 2003 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyKstar0 K''*0 +Alias MyantiKstar0 anti-K''*0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- MyKstar0 PHSP; +Enddecay +# +Decay MyKstar0 +1.000 K+ pi- VSS; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- MyantiKstar0 PHSP; +Enddecay +# +Decay MyantiKstar0 +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarKstar_Kspi0.dec b/BaBar_2014/B0B0bar_ppbarKstar_Kspi0.dec new file mode 100644 index 0000000..8c58082 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarKstar_Kspi0.dec @@ -0,0 +1,47 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar Kstar0 # +# | # +# -> K_S0 pi0 # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: 13 Dec 03 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias MyK_S0 K_S0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- MyKstar0 PHSP; +Enddecay +# +Decay MyKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- MyantiKstar0 PHSP; +Enddecay +# +Decay MyantiKstar0 +1.000 MyK_S0 pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_ppbarrho.dec b/BaBar_2014/B0B0bar_ppbarrho.dec new file mode 100644 index 0000000..0ed2aa4 --- /dev/null +++ b/BaBar_2014/B0B0bar_ppbarrho.dec @@ -0,0 +1,30 @@ +####################################################### +# # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> X # +# | # +# -> p pbar rho0 # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: 30 June 03 # +# # +####################################################### +# +Alias myB0 B0 +Alias myAntiB0 anti-B0 +ChargeConj myB0 myAntiB0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myAntiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.000 p+ anti-p- rho0 PHSP; +Enddecay +# +Decay myAntiB0 +1.000 p+ anti-p- rho0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_pppm.dec b/BaBar_2014/B0B0bar_pppm.dec new file mode 100644 index 0000000..f2bf850 --- /dev/null +++ b/BaBar_2014/B0B0bar_pppm.dec @@ -0,0 +1,35 @@ +################################################### +# # +# Decay: anti-B0 -> p+ anti-p-, B0 -> X # +# # +# + cc # +# # +# Author: Joe Izen # +# Date: 11/July/00 # +# Initial version modified from B0Bar_pipi-.dec # +# Note that SSS_CP balks at p pbar. # +# Use phase space for now # +################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +#1.0000 p+ anti-p- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +1.0000 p+ anti-p- PHSP; +Enddecay +# +Decay Myanti-B0 +#1.0000 p+ anti-p- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +1.0000 p+ anti-p- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/B0B0bar_psi2sXKS.dec b/BaBar_2014/B0B0bar_psi2sXKS.dec new file mode 100644 index 0000000..3b6fd76 --- /dev/null +++ b/BaBar_2014/B0B0bar_psi2sXKS.dec @@ -0,0 +1,49 @@ +################################################################### +# B0~ --> psi2s K0s B0 --> Generic # +# | | # +# | |-->pi+pi- # +# | # +# | # +# | # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 17/11/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias Mypsi(2S) psi(2S) +Alias MyK0s K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.000 Mypsi(2S) MyK0s SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Mypsi(2S) +#0.700 J/psi pi+ pi- PHSP; +0.700 J/psi pi+ pi- VVPIPI; +Enddecay +# Ks --> pi+ pi- (100%) +Decay MyK0s +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/B0B0bar_rho0D0_k3pi.dec b/BaBar_2014/B0B0bar_rho0D0_k3pi.dec new file mode 100644 index 0000000..2af1071 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0D0_k3pi.dec @@ -0,0 +1,42 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 rho0 # +# | # +# | # +# |->K-pi+pi+pi- # +# # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 rho0 MyD0 SVS; +Enddecay + +Decay MyB0 +1.00 rho0 MyantiD0 SVS; +Enddecay + + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_rho0D0_kpi.dec b/BaBar_2014/B0B0bar_rho0D0_kpi.dec new file mode 100644 index 0000000..a502bf4 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0D0_kpi.dec @@ -0,0 +1,43 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 rho0 # +# | # +# | # +# |->K-pi+ # +# # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 rho0 MyD0 SVS; +Enddecay + +Decay MyB0 +1.00 rho0 MyantiD0 SVS; +Enddecay + + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_rho0D0_kpipi0.dec b/BaBar_2014/B0B0bar_rho0D0_kpipi0.dec new file mode 100644 index 0000000..7b4684e --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0D0_kpipi0.dec @@ -0,0 +1,40 @@ +##################################################### +# # +# Decay: B0 -> X anti-B0 -> D0 rho0 # +# | # +# | # +# |->K-pi+ pi # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +##################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 rho0 MyD0 SVS; +Enddecay + +Decay MyB0 +1.00 rho0 MyantiD0 SVS; +Enddecay + + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_k3pi.dec b/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_k3pi.dec new file mode 100644 index 0000000..f2e2e3e --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_k3pi.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 rho0 # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_kpi.dec b/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_kpi.dec new file mode 100644 index 0000000..674ffd6 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_kpi.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 rho0 # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+ # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_kpipi0.dec b/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_kpipi0.dec new file mode 100644 index 0000000..0fc3ee6 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Dstar0_D0gamma_kpipi0.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 rho0 # +# | # +# | # +# |-> D0 gamma # +# | # +# | # +# K- pi+ pi0 # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; + +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay MyantiD*0 +0.3810 MyantiD0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_k3pi.dec b/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_k3pi.dec new file mode 100644 index 0000000..049b00b --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_k3pi.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 rho0 # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.076 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyantiD0 +0.076 K+ pi- pi- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_kpi.dec b/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_kpi.dec new file mode 100644 index 0000000..63c23ec --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_kpi.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 rho0 # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+ # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay + +Decay MyantiD0 +0.0391 K+ pi- PHSP; +Enddecay + +End + diff --git a/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_kpipi0.dec b/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_kpipi0.dec new file mode 100644 index 0000000..46dd919 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Dstar0_D0pi0_kpipi0.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: B0 -> X anti-B0 -> D*(2007)0 rho0 # +# | # +# | # +# |-> D0 pi0 # +# | # +# | # +# K- pi+pi+pi- # +# # +# # +# # +# Author: Maha K # +# created:08/09/00 # +# # +########################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*0 D*0 +Alias MyantiD*0 anti-D*0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay Myanti-B0 +1.00 MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1.00 MyantiD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +Enddecay + +Decay MyantiD*0 +0.6190 MyantiD0 pi0 VSS; +Enddecay + +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyantiD0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +End diff --git a/BaBar_2014/B0B0bar_rho0Kppim.dec b/BaBar_2014/B0B0bar_rho0Kppim.dec new file mode 100644 index 0000000..0299a09 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Kppim.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B0 -> rho0 K+ pi- (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 rho0 K+ pi- PHSP; +Enddecay +# +Decay MyB0bar +1.000 rho0 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rho0Kstar_Kppim.dec b/BaBar_2014/B0B0bar_rho0Kstar_Kppim.dec new file mode 100644 index 0000000..bd9430f --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Kstar_Kppim.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B0 -> rho0 K*0 -> (pi+pi-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho0 MyK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho0 MyK*0bar SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rho0Kstar_Kppim_ln.dec b/BaBar_2014/B0B0bar_rho0Kstar_Kppim_ln.dec new file mode 100644 index 0000000..2fbcabd --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Kstar_Kppim_ln.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> rho0 K*0 -> (pi+pi-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho0 MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho0 MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rho0Kstar_Kppim_tr.dec b/BaBar_2014/B0B0bar_rho0Kstar_Kppim_tr.dec new file mode 100644 index 0000000..c4e61ce --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0Kstar_Kppim_tr.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> rho0 K*0 -> (pi+pi-)(K+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho0 MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho0 MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rho0gamma.dec b/BaBar_2014/B0B0bar_rho0gamma.dec new file mode 100644 index 0000000..f835332 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0gamma.dec @@ -0,0 +1,27 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> rho gamma # +# | # +# -> X # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End + + diff --git a/BaBar_2014/B0B0bar_rho0pi0pi0.dec b/BaBar_2014/B0B0bar_rho0pi0pi0.dec new file mode 100644 index 0000000..38c3160 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0pi0pi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B0 -> rho0 pi0 pi0 # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B0 -> rho0 pi0 pi0 +# using phase space model (PHSP) +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 rho0 pi0 pi0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 rho0 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rho0pippim.dec b/BaBar_2014/B0B0bar_rho0pippim.dec new file mode 100644 index 0000000..cb476e1 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0pippim.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B0 -> rho0 pi+ pi- (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 rho0 pi+ pi- PHSP; +Enddecay +# +Decay MyB0bar +1.000 rho0 pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rho0rho0.dec b/BaBar_2014/B0B0bar_rho0rho0.dec new file mode 100644 index 0000000..968110f --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0rho0.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B0 -> rho0 rho0 -> (pi+pi-)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rho0rho0_ln.dec b/BaBar_2014/B0B0bar_rho0rho0_ln.dec new file mode 100644 index 0000000..09cbb78 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0rho0_ln.dec @@ -0,0 +1,44 @@ +############################################################ +# # +# Decay: B0 -> rho0 rho0 -> (pi+pi-)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho0 rho0 SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho0 rho0 SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rho0rho0_tr.dec b/BaBar_2014/B0B0bar_rho0rho0_tr.dec new file mode 100644 index 0000000..7b7c5d4 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho0rho0_tr.dec @@ -0,0 +1,44 @@ +############################################################ +# # +# Decay: B0 -> rho0 rho0 -> (pi+pi-)(pi+pi-) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/10/2000 # +# Changed: 09/25/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhoClnu_FLATQ2.dec b/BaBar_2014/B0B0bar_rhoClnu_FLATQ2.dec new file mode 100644 index 0000000..162bfe2 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoClnu_FLATQ2.dec @@ -0,0 +1,41 @@ +############################################################################### +# This is a DECAY.DEC file for B0 -> rhoC l nu: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> rho+ l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# CONTACT: cote@slac.stanford.edu # +# # +############################################################################### +# Create our own versions of B0, B0bar which will decay to rhoC l nu +# and specify that they should be treated as antiparticles +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to rhoC l nu +# +Decay myantiB0 +0.500 rho+ e- anti-nu_e FLATQ2; +0.500 rho+ mu- anti-nu_mu FLATQ2; +Enddecay +Decay myB0 +0.500 rho- e+ nu_e FLATQ2; +0.500 rho- mu+ nu_mu FLATQ2; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/B0B0bar_rho_DmKpipi.dec b/BaBar_2014/B0B0bar_rho_DmKpipi.dec new file mode 100644 index 0000000..26e26a7 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho_DmKpipi.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B0 -> D- rho+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> K+ pi- pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 rho+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +1.00 rho- MyD+ SVS; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_rho_DmKspi.dec b/BaBar_2014/B0B0bar_rho_DmKspi.dec new file mode 100644 index 0000000..b175126 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho_DmKspi.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B0 -> D- rho+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> K_S0 pi- # +# # +# + cc # +# # +# Author: Kelly E. Ford # +# created: 11 Mar 2003 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 rho+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +1.00 rho- MyD+ SVS; +Enddecay +# +Decay MyD- +1.0000 K_S0 pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 K_S0 pi+ PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_rho_DstarmpiD0barmK3pi.dec b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmK3pi.dec new file mode 100644 index 0000000..3408045 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmK3pi.dec @@ -0,0 +1,56 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- rho+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K pi+ pi- pi+ # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKpi.dec b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKpi.dec new file mode 100644 index 0000000..b6f84b2 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKpi.dec @@ -0,0 +1,57 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- rho+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKpipi0.dec b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKpipi0.dec new file mode 100644 index 0000000..2b0838e --- /dev/null +++ b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKpipi0.dec @@ -0,0 +1,56 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- rho+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> K+ pi- pi0 # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi0 D_DALITZ; +Enddecay + +# +End diff --git a/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKspipi.dec b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKspipi.dec new file mode 100644 index 0000000..85f4f33 --- /dev/null +++ b/BaBar_2014/B0B0bar_rho_DstarmpiD0barmKspipi.dec @@ -0,0 +1,74 @@ +##################################################### +# # +# Decay: B0 -> D*(2010)- rho+ anti-B0 -> X # +# | # +# | # +# | # +# | # +# |-> D0bar pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.00 MyD*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.00 MyD*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 +1.00 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# + +# +End + diff --git a/BaBar_2014/B0B0bar_rhogamma.dec b/BaBar_2014/B0B0bar_rhogamma.dec new file mode 100644 index 0000000..f51935e --- /dev/null +++ b/BaBar_2014/B0B0bar_rhogamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> rho gamma, omega gamma # +# | # +# -> X # +# # +############################################################################### +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +Decay myB0 +0.5000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.5000 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myantiB0 +0.5000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.5000 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End + + diff --git a/BaBar_2014/B0B0bar_rholnu.dec b/BaBar_2014/B0B0bar_rholnu.dec new file mode 100644 index 0000000..2baac46 --- /dev/null +++ b/BaBar_2014/B0B0bar_rholnu.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for B -> rho l nu: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> rho+ l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# # +# # +# Mail: NATALIA@SLAC.STANFORD.EDU +############################################################################### +# Create our own versions of B0, B0bar which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to rho l nu +# +Decay myantiB0 +0.500 rho+ e- anti-nu_e PHOTOS ISGW2; +0.500 rho+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +Decay myB0 +0.500 rho- e+ nu_e PHOTOS ISGW2; +0.500 rho- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rholnu_lcsr.dec b/BaBar_2014/B0B0bar_rholnu_lcsr.dec new file mode 100644 index 0000000..212204a --- /dev/null +++ b/BaBar_2014/B0B0bar_rholnu_lcsr.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for B -> rho l nu: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> rho+ l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# # +# # +# LCSR model +############################################################################### +# Create our own versions of B0, B0bar which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to rho l nu +# +Decay myantiB0 +0.500 rho+ e- anti-nu_e PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +0.500 rho+ mu- anti-nu_mu PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +Enddecay +Decay myB0 +0.500 rho- e+ nu_e PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +0.500 rho- mu+ nu_mu PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rholnu_phsp.dec b/BaBar_2014/B0B0bar_rholnu_phsp.dec new file mode 100644 index 0000000..8156e2e --- /dev/null +++ b/BaBar_2014/B0B0bar_rholnu_phsp.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for B -> rho l nu: # +# Up(4S) -> B0 B0bar + CC # +# | | # +# | -> rho+ l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# # +# # +# Phase space +############################################################################### +# Create our own versions of B0, B0bar which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +1.000 B0 anti-B0 myB0 myantiB0 VSS_BMIX dm; +Enddecay +# +# force anti-B0 to always decay to rho l nu +# +Decay myantiB0 +0.500 rho+ e- anti-nu_e PHOTOS PHSP; +0.500 rho+ mu- anti-nu_mu PHOTOS PHSP; +Enddecay +Decay myB0 +0.500 rho- e+ nu_e PHOTOS PHSP; +0.500 rho- mu+ nu_mu PHOTOS PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rhomKSpip.dec b/BaBar_2014/B0B0bar_rhomKSpip.dec new file mode 100644 index 0000000..eaee123 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKSpip.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B0 -> rho- KS pi+ (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 rho- MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyB0bar +1.000 rho+ MyK_S0 pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rhomKppi0.dec b/BaBar_2014/B0B0bar_rhomKppi0.dec new file mode 100644 index 0000000..52c7a3d --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKppi0.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B0 -> rho- K+ pi0 (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 rho- K+ pi0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 rho+ K- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rhomKstar_K0Lpip_ln.dec b/BaBar_2014/B0B0bar_rhomKstar_K0Lpip_ln.dec new file mode 100644 index 0000000..4042a94 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKstar_K0Lpip_ln.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Decay: B0 -> rho- K*+ -> (pi-pi0)(K0Lpi+) # +# B0bar -> generic +cc # +# # +# Author: Mathew Graham # +# Created: 04/19/2004 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K_L0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 K_L0 pi- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhomKstar_K0pip.dec b/BaBar_2014/B0B0bar_rhomKstar_K0pip.dec new file mode 100644 index 0000000..4fa1641 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKstar_K0pip.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> rho- K*+ -> (pi-pi0)(K0pi+) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhomKstar_K0pip_ln.dec b/BaBar_2014/B0B0bar_rhomKstar_K0pip_ln.dec new file mode 100644 index 0000000..41c945a --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKstar_K0pip_ln.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> rho- K*+ -> (pi-pi0)(K0pi+) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhomKstar_K0pip_tr.dec b/BaBar_2014/B0B0bar_rhomKstar_K0pip_tr.dec new file mode 100644 index 0000000..b98cd57 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKstar_K0pip_tr.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B0 -> rho- K*+ -> (pi-pi0)(K0pi+) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhomKstar_Kppi0.dec b/BaBar_2014/B0B0bar_rhomKstar_Kppi0.dec new file mode 100644 index 0000000..ac0e091 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKstar_Kppi0.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> rho- K*+ -> (pi-pi0)(K+pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhomKstar_Kppi0_ln.dec b/BaBar_2014/B0B0bar_rhomKstar_Kppi0_ln.dec new file mode 100644 index 0000000..9d2c2d9 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKstar_Kppi0_ln.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> rho- K*+ -> (pi-pi0)(K+pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhomKstar_Kppi0_tr.dec b/BaBar_2014/B0B0bar_rhomKstar_Kppi0_tr.dec new file mode 100644 index 0000000..8b18105 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhomKstar_Kppi0_tr.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B0 -> rho- K*+ -> (pi-pi0)(K+pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho- MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhompippi0.dec b/BaBar_2014/B0B0bar_rhompippi0.dec new file mode 100644 index 0000000..5c131bd --- /dev/null +++ b/BaBar_2014/B0B0bar_rhompippi0.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B0 -> rho- pi+ pi0 (non-resonant) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.000 rho- pi+ pi0 PHSP; +Enddecay +# +Decay MyB0bar +1.000 rho+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rhopDm_Dtoepi0nue.dec b/BaBar_2014/B0B0bar_rhopDm_Dtoepi0nue.dec new file mode 100644 index 0000000..32e272e --- /dev/null +++ b/BaBar_2014/B0B0bar_rhopDm_Dtoepi0nue.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B0 -> rho+ D- # +# | # +# ----> pi0 e- anti-nu_e # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B0 -> pi0 e- nu_e +# using Scalar to Vector Scalar model (SVS) +# forcing D- -> pi0 e- nu_e +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +# +# include B0 B0bar mixing +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.000 rho+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +1.000 rho- MyD+ SVS; +Enddecay +# +Decay MyD- +1.000 pi0 e- anti-nu_e PHOTOS ISGW2; +Enddecay +# +Decay MyD+ +1.000 pi0 e+ nu_e PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rhoprho0pim.dec b/BaBar_2014/B0B0bar_rhoprho0pim.dec new file mode 100644 index 0000000..5c196b0 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoprho0pim.dec @@ -0,0 +1,28 @@ +################################################### +# # +# Decay: B0 -> rho+ rho0 pi- + cc # +# # +# Author: I. Forster # +# Created: 13/05/03 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay Myanti-B0 +1.0000 rho+ rho0 pi- PHSP; +1.0000 rho- rho0 pi+ PHSP; +Enddecay +# +Decay MyB0 +1.0000 rho0 rho+ pi- PHSP ; +1.0000 rho0 rho- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_rhoprhom.dec b/BaBar_2014/B0B0bar_rhoprhom.dec new file mode 100644 index 0000000..fcbe1e3 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoprhom.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B0 -> rho+ rho- -> (pi+pi0)(pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/10/2000 # +# Changed: 03/30/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +#Decay Upsilon(4S) +#1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +#Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhoprhom_ln.dec b/BaBar_2014/B0B0bar_rhoprhom_ln.dec new file mode 100644 index 0000000..cc94eaf --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoprhom_ln.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B0 -> rho+ rho- -> (pi+pi0)(pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/10/2000 # +# Changed: 03/30/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# Decay Upsilon(4S) +# 1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +# Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho+ rho- SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ rho- SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhoprhom_ln_C0.8.dec b/BaBar_2014/B0B0bar_rhoprhom_ln_C0.8.dec new file mode 100644 index 0000000..b4888d3 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoprhom_ln_C0.8.dec @@ -0,0 +1,56 @@ +############################################################ +# # +# Decay: B0 -> rho+ rho- -> (pi+pi0)(pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Adrian Bevan +# e-mail: bevan@slac.stanford.edu # +# Created: 15/12/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +#S=0.4 +Define alpha 1.365 +# C = 0.8 +# C = -Acp. Acp = (Nbbar - Nb)/( + ) +# -> Pr(MyB0) = 0.5 ---> Pr(MyB0) = 0.9 +# -> Pr(MyB0bar) = 0.5 ---> Pr(MyB0bar) = 0.1 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.747 MyB0 anti-B0 VSS_MIX dm; +0.083 MyB0bar B0 VSS_MIX dm; +0.017 MyB0bar anti-B0 VSS_MIX dm; +0.153 MyB0 B0 VSS_MIX dm; +#0.4150 MyB0 anti-B0 VSS_MIX dm; +#0.4150 MyB0bar B0 VSS_MIX dm; +#0.0850 MyB0bar anti-B0 VSS_MIX dm; +#0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# Decay Upsilon(4S) +# 1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +# Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho+ rho- SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ rho- SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhoprhom_ln_S0.8.dec b/BaBar_2014/B0B0bar_rhoprhom_ln_S0.8.dec new file mode 100644 index 0000000..8afd6d5 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoprhom_ln_S0.8.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B0 -> rho+ rho- -> (pi+pi0)(pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Adrian Bevan +# e-mail: bevan@slac.stanford.edu # +# Created: 15/12/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +# S = 0.8 +Define alpha 0.46365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +# Decay Upsilon(4S) +# 1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +# Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB0 +1.0000 rho+ rho- SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ rho- SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhoprhom_tr.dec b/BaBar_2014/B0B0bar_rhoprhom_tr.dec new file mode 100644 index 0000000..c2e7619 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoprhom_tr.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B0 -> rho+ rho- -> (pi+pi0)(pi-pi0) # +# B0bar -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/10/2000 # +# Changed: 03/30/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB0 B0 +Alias MyB0bar anti-B0 +Define dm .464e12 +Define alpha 1.365 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.4150 MyB0 anti-B0 VSS_MIX dm; +0.4150 MyB0bar B0 VSS_MIX dm; +0.0850 MyB0bar anti-B0 VSS_MIX dm; +0.0850 MyB0 B0 VSS_MIX dm; +Enddecay +# +#Decay Upsilon(4S) +#1.000 B0 anti-B0 MyB0 MyB0bar VSS_BMIX dm; +#Enddecay +# +# 'Scalar -> Vector Vector' +# Tansverse polarization: SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_CP alpha dm 1 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB0 +1.0000 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB0bar +1.0000 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/B0B0bar_rhoprhompi0.dec b/BaBar_2014/B0B0bar_rhoprhompi0.dec new file mode 100644 index 0000000..e2acb12 --- /dev/null +++ b/BaBar_2014/B0B0bar_rhoprhompi0.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Decay: B0 -> rho+ rho - pi0 + cc # +# # +# Author: I. Forster # +# Created: 13/5/03 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 rho+ rho- pi0 PHSP; +Enddecay +# +Decay MyB0 +1.0000 rho- rho+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0B0bar_tauptaum.dec b/BaBar_2014/B0B0bar_tauptaum.dec new file mode 100644 index 0000000..1fb4c9a --- /dev/null +++ b/BaBar_2014/B0B0bar_tauptaum.dec @@ -0,0 +1,31 @@ +################################################### +# # +# Decay: anti-B0 -> tau+ tau-, B0 -> X # +# # +# + cc # +# # +# Author: Joe Izen # +# Date: Sep 28, 2000 # +################################################### +# +# +Define alpha 1.365 +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +# +Decay MyB0 +1.0000 tau+ tau- SLL; +Enddecay +# +Decay Myanti-B0 +1.0000 tau+ tau- SLL; +Enddecay +# +End + diff --git a/BaBar_2014/B0Bch_Breco_DK_Cocktail.dec b/BaBar_2014/B0Bch_Breco_DK_Cocktail.dec new file mode 100644 index 0000000..607ff0d --- /dev/null +++ b/BaBar_2014/B0Bch_Breco_DK_Cocktail.dec @@ -0,0 +1,362 @@ +########################################################################## +# # +# Cocktail for B -> DK decays # +# # +# D*+,D0 decays taken directly from B0B0bar_Breco_DX+DstarX_cocktail.dec # +# # +# In order to avoid re-weighting of D0 decays from breco cocktail, # +# some particles have been given two aliases. These allow us to define # +# different decay modes of the particle depending on its mother (i.e., # +# we are only interested in the K+pi- decay of the K*0 when it # +# contributes to the D0 -> K3pi branching fraction, but we'd like to # +# have it also decay to Ks pi0 in B -> D K* decays) # +# The most overlap occurs with D0cp daughters where we care about # +# reconstructing different final states than were used to make the # +# D0->K3pi branching ratio correct # +# # +# # +# Author: Stephen Levy, UCSB # +# Date: October 14, 2002 # +# # +########################################################################## +# +# Define alias +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Alias NewK*+ K*+ +Alias NewK*- K*- +Alias NewK*0 K*0 +Alias NewAnti-K*0 anti-K*0 +Alias NewOmega omega +Alias NewEta eta +Alias NewEtap eta' +Alias NewPhi phi +# +################################################### +# Begin the decays +################################################### +# +Decay Upsilon(4S) +0.20698 MyB0 anti-B0 VSS_MIX dm; +0.20698 Myanti-B0 B0 VSS_MIX dm; +0.04301 Myanti-B0 anti-B0 VSS_MIX dm; +0.04301 MyB0 B0 VSS_MIX dm; +0.250 MyB+ B- VSS; +0.250 MyB- B+ VSS; +Enddecay +# +#### +# +Decay MyB0 +# Total Branching Frac = 5.62e-3 +################################################### +# B0 -> D- K+; From PDG 2002 (same for conj. below) +# Partial Br Fr = 1.15e-3 +################################################### +0.00020 MyD- K+ PHSP; +0.00020 MyD*- K+ SVS; +0.00037 NewK*+ MyD- SVS; +# helicity amplitude taken from D*- rho+ +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +0.00038 MyD*- NewK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +################################################### +# B0 -> D0bar K0; Estimate from D0bar pi0 PDG 2002 +# Partial Br Fr = 8.0e-5 +################################################### +# +# bf(B0 -> D0bar pi0) = 2.9e-4 +# bf(B0 -> D0bar Ks) = 2.9e-4 * |Vus/Vud|^2 * bf(Ks->pi+pi-) +# = 1.0e-5 +0.000010 Myanti-D0 MyK0 PHSP; +0.000010 Myanti-D*0 MyK0 SVS; +0.000030 NewK*0 MyD0 SVS; +0.000030 Myanti-D*0 NewK*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +######################################################### +# Three body decays estimated by Troels Petersen +# Ks decays have been corrected by (1/2)*(0.686) ~ (1/3) +# Partial Br Fr = 2.98e-3 +######################################################### +0.0005 MyD- K+ pi0 PHSP; +0.0002 MyD- MyKs pi+ PHSP; +0.0001 Myanti-D0 K+ pi- PHSP; +0.00003 Myanti-D0 MyKs pi0 PHSP; +0.0004 MyD*- K+ pi0 PHSP; +0.0001 MyD*- MyKs pi+ PHSP; +0.00008 Myanti-D*0 K+ pi- PHSP; +0.00002 Myanti-D*0 MyKs pi0 PHSP; +0.0012 MyD- NewK*+ pi0 PHSP; +0.00005 MyD- NewK*0 pi+ PHSP; +0.0001 Myanti-D0 NewK*+ pi- PHSP; +0.0001 Myanti-D0 NewK*0 pi0 PHSP; +######################################################### +# Four body decays estimated by Troels Petersen +# Ks decays have been corrected by (1/2)*(0.686) ~ (1/3) +# Partial Br Fr = 1.41e-3 +######################################################### +0.00001 Myanti-D0 MyKs pi0 pi0 PHSP; +0.0001 Myanti-D0 MyKs pi+ pi- PHSP; +0.0004 Myanti-D0 K+ pi- pi0 PHSP; +0.0003 MyD- MyKs pi+ pi0 PHSP; +0.0004 MyD- K+ pi0 pi0 PHSP; +0.0002 MyD- K+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 +# D+ K- +0.00020 MyD+ K- PHSP; +0.00020 MyD*+ K- SVS; +0.00037 NewK*- MyD+ SVS; +0.00038 MyD*+ NewK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# D0 K0bar +0.000010 MyD0 Myanti-K0 PHSP; +0.000010 MyD*0 Myanti-K0 SVS; +0.000030 NewAnti-K*0 Myanti-D0 SVS; +0.000030 MyD*0 NewAnti-K*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# Three Body +0.0005 MyD+ K- pi0 PHSP; +0.0002 MyD+ MyKs pi- PHSP; +0.0001 MyD0 K- pi+ PHSP; +0.00003 MyD0 MyKs pi0 PHSP; +0.0004 MyD*+ K- pi0 PHSP; +0.0001 MyD*+ MyKs pi- PHSP; +0.00008 MyD*0 K- pi+ PHSP; +0.00002 MyD*0 MyKs pi0 PHSP; +0.0012 MyD+ NewK*- pi0 PHSP; +0.00005 MyD+ NewAnti-K*0 pi- PHSP; +0.0001 MyD0 NewK*- pi+ PHSP; +0.0001 MyD0 NewAnti-K*0 pi0 PHSP; +# Four Body +0.00001 MyD0 MyKs pi0 pi0 PHSP; +0.0001 MyD0 MyKs pi- pi+ PHSP; +0.0004 MyD0 K- pi+ pi0 PHSP; +0.0003 MyD+ MyKs pi- pi0 PHSP; +0.0004 MyD+ K- pi0 pi0 PHSP; +0.0002 MyD+ K- pi- pi+ PHSP; +Enddecay +# +#### +# +Decay MyB+ +# Total Br Fr = 5.61e-3 +################################################### +# B+ -> D0bar K+; From PDG 2002 +# Partial Br Fr = 2.06e-3 +################################################### +0.00037 Myanti-D0 K+ PHSP; +0.00036 Myanti-D*0 K+ SVS; +0.00061 NewK*+ Myanti-D0 SVS; +0.00072 Myanti-D*0 NewK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +################################################### +# Three body decays estimated by Troels Petersen +# Partial Br Fr = 2.55e-3 +################################################### +0.0002 Myanti-D0 MyKs pi+ PHSP; +0.00010 Myanti-D0 K+ pi0 PHSP; +0.00005 MyD- K+ pi+ PHSP; +0.0004 Myanti-D*0 K+ pi0 PHSP; +0.0001 Myanti-D*0 MyKs pi+ PHSP; +0.0002 MyD*- K+ pi+ PHSP; +0.0012 Myanti-D0 NewK*+ pi0 PHSP; +0.0002 Myanti-D0 NewK*0 pi+ PHSP; +0.0001 MyD- NewK*+ pi+ PHSP; +################################################### +# Four body decays estimated by Troels Petersen +# Partial Br Fr = 1.0e-3 +################################################### +0.0003 Myanti-D0 MyKs pi+ pi0 PHSP; +0.0004 Myanti-D0 K+ pi0 pi0 PHSP; +0.0001 MyD- MyKs pi+ pi+ PHSP; +0.0002 MyD- K+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +# D0 K- +0.00037 MyD0 K- PHSP; +0.00036 MyD*0 K- SVS; +0.00061 NewK*- MyD0 SVS; +0.00072 MyD*0 NewK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# Three body +0.0002 MyD0 MyKs pi- PHSP; +0.00010 MyD0 K- pi0 PHSP; +0.00005 MyD+ K- pi- PHSP; +0.0004 MyD*0 K- pi0 PHSP; +0.0001 MyD*0 MyKs pi- PHSP; +0.0002 MyD*+ K- pi- PHSP; +0.0012 MyD0 NewK*- pi0 PHSP; +0.0002 MyD0 NewAnti-K*0 pi- PHSP; +0.0001 MyD+ NewK*- pi- PHSP; +# Four body +0.0003 MyD0 MyKs pi- pi0 PHSP; +0.0004 MyD0 K- pi0 pi0 PHSP; +0.0001 MyD+ MyKs pi- pi- PHSP; +0.0002 MyD+ K- pi- pi0 PHSP; +Enddecay +# +#### +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +#### +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +#### +# +Decay NewK*+ +# bf(Ks pi+) = (2/3) * (1/2) * bf(ks->pipi) +0.2287 MyKs pi+ VSS; +0.3333 K+ pi0 VSS; +Enddecay +# +Decay NewK*- +0.2287 MyKs pi- VSS; +0.3333 K- pi0 VSS; +Enddecay +# +#### +# +Decay NewK*0 +0.6667 K+ pi- VSS; +# bf(Ks pi0) = (1/3) * (1/2) * bf(ks->pipi) +0.1143 MyKs pi0 VSS; +Enddecay +# +Decay NewAnti-K*0 +0.6667 K- pi+ VSS; +0.1143 MyKs pi0 VSS; +Enddecay +# +#### +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +#### +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +#### +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +#### +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +#### +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +#### +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +#### +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/B0Bch_Breco_DK_D0CP_Cocktail.dec b/BaBar_2014/B0Bch_Breco_DK_D0CP_Cocktail.dec new file mode 100644 index 0000000..e90562e --- /dev/null +++ b/BaBar_2014/B0Bch_Breco_DK_D0CP_Cocktail.dec @@ -0,0 +1,394 @@ +########################################################################## +# # +# Cocktail for B -> DK decays # +# # +# D*+,D0 decays taken directly from B0B0bar_Breco_DX+DstarX_cocktail.dec # +# # +# In order to avoid re-weighting of D0 decays from breco cocktail, # +# some particles have been given two aliases. These allow us to define # +# different decay modes of the particle depending on its mother (i.e., # +# we are only interested in the K+pi- decay of the K*0 when it # +# contributes to the D0 -> K3pi branching fraction, but we'd like to # +# have it also decay to Ks pi0 in B -> D K* decays) # +# The most overlap occurs with D0cp daughters where we care about # +# reconstructing different final states than were used to make the # +# D0->K3pi branching ratio correct # +# # +# # +# Author: Stephen Levy, UCSB # +# Date: October 14, 2002 # +# # +########################################################################## +# +# Define alias +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD- D- +Alias MyD+ D+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Alias NewK*+ K*+ +Alias NewK*- K*- +Alias NewK*0 K*0 +Alias NewAnti-K*0 anti-K*0 +Alias NewOmega omega +Alias NewEta eta +Alias NewEtap eta' +Alias NewPhi phi +# +################################################### +# Begin the decays +################################################### +# +Decay Upsilon(4S) +0.20698 MyB0 anti-B0 VSS_MIX dm; +0.20698 Myanti-B0 B0 VSS_MIX dm; +0.04301 Myanti-B0 anti-B0 VSS_MIX dm; +0.04301 MyB0 B0 VSS_MIX dm; +0.250 MyB+ B- VSS; +0.250 MyB- B+ VSS; +Enddecay +# +#### +# +Decay MyB0 +# Total Branching Frac = 5.62e-3 +################################################### +# B0 -> D- K+; From PDG 2002 (same for conj. below) +# Partial Br Fr = 1.15e-3 +################################################### +0.00020 MyD- K+ PHSP; +0.00020 MyD*- K+ SVS; +0.00037 NewK*+ MyD- SVS; +# helicity amplitude taken from D*- rho+ +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +0.00038 MyD*- NewK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +################################################### +# B0 -> D0bar K0; Estimate from D0bar pi0 PDG 2002 +# Partial Br Fr = 8.0e-5 +################################################### +# +# bf(B0 -> D0bar pi0) = 2.9e-4 +# bf(B0 -> D0bar Ks) = 2.9e-4 * |Vus/Vud|^2 * bf(Ks->pi+pi-) +# = 1.0e-5 +0.000010 Myanti-D0 MyK0 PHSP; +0.000010 Myanti-D*0 MyK0 SVS; +0.000030 NewK*0 MyD0 SVS; +0.000030 Myanti-D*0 NewK*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +######################################################### +# Three body decays estimated by Troels Petersen +# Ks decays have been corrected by (1/2)*(0.686) ~ (1/3) +# Partial Br Fr = 2.98e-3 +######################################################### +0.0005 MyD- K+ pi0 PHSP; +0.0002 MyD- MyKs pi+ PHSP; +0.0001 Myanti-D0 K+ pi- PHSP; +0.00003 Myanti-D0 MyKs pi0 PHSP; +0.0004 MyD*- K+ pi0 PHSP; +0.0001 MyD*- MyKs pi+ PHSP; +0.00008 Myanti-D*0 K+ pi- PHSP; +0.00002 Myanti-D*0 MyKs pi0 PHSP; +0.0012 MyD- NewK*+ pi0 PHSP; +0.00005 MyD- NewK*0 pi+ PHSP; +0.0001 Myanti-D0 NewK*+ pi- PHSP; +0.0001 Myanti-D0 NewK*0 pi0 PHSP; +######################################################### +# Four body decays estimated by Troels Petersen +# Ks decays have been corrected by (1/2)*(0.686) ~ (1/3) +# Partial Br Fr = 1.41e-3 +######################################################### +0.00001 Myanti-D0 MyKs pi0 pi0 PHSP; +0.0001 Myanti-D0 MyKs pi+ pi- PHSP; +0.0004 Myanti-D0 K+ pi- pi0 PHSP; +0.0003 MyD- MyKs pi+ pi0 PHSP; +0.0004 MyD- K+ pi0 pi0 PHSP; +0.0002 MyD- K+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 +# D+ K- +0.00020 MyD+ K- PHSP; +0.00020 MyD*+ K- SVS; +0.00037 NewK*- MyD+ SVS; +0.00038 MyD*+ NewK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# D0 K0bar +0.000010 MyD0 Myanti-K0 PHSP; +0.000010 MyD*0 Myanti-K0 SVS; +0.000030 NewAnti-K*0 Myanti-D0 SVS; +0.000030 MyD*0 NewAnti-K*0 SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# Three Body +0.0005 MyD+ K- pi0 PHSP; +0.0002 MyD+ MyKs pi- PHSP; +0.0001 MyD0 K- pi+ PHSP; +0.00003 MyD0 MyKs pi0 PHSP; +0.0004 MyD*+ K- pi0 PHSP; +0.0001 MyD*+ MyKs pi- PHSP; +0.00008 MyD*0 K- pi+ PHSP; +0.00002 MyD*0 MyKs pi0 PHSP; +0.0012 MyD+ NewK*- pi0 PHSP; +0.00005 MyD+ NewAnti-K*0 pi- PHSP; +0.0001 MyD0 NewK*- pi+ PHSP; +0.0001 MyD0 NewAnti-K*0 pi0 PHSP; +# Four Body +0.00001 MyD0 MyKs pi0 pi0 PHSP; +0.0001 MyD0 MyKs pi- pi+ PHSP; +0.0004 MyD0 K- pi+ pi0 PHSP; +0.0003 MyD+ MyKs pi- pi0 PHSP; +0.0004 MyD+ K- pi0 pi0 PHSP; +0.0002 MyD+ K- pi- pi+ PHSP; +Enddecay +# +#### +# +Decay MyB+ +# Total Br Fr = 5.61e-3 +################################################### +# B+ -> D0bar K+; From PDG 2002 +# Partial Br Fr = 2.06e-3 +################################################### +0.00037 Myanti-D0 K+ PHSP; +0.00036 Myanti-D*0 K+ SVS; +0.00061 NewK*+ Myanti-D0 SVS; +0.00072 Myanti-D*0 NewK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +################################################### +# Three body decays estimated by Troels Petersen +# Partial Br Fr = 2.55e-3 +################################################### +0.0002 Myanti-D0 MyKs pi+ PHSP; +0.00010 Myanti-D0 K+ pi0 PHSP; +0.00005 MyD- K+ pi+ PHSP; +0.0004 Myanti-D*0 K+ pi0 PHSP; +0.0001 Myanti-D*0 MyKs pi+ PHSP; +0.0002 MyD*- K+ pi+ PHSP; +0.0012 Myanti-D0 NewK*+ pi0 PHSP; +0.0002 Myanti-D0 NewK*0 pi+ PHSP; +0.0001 MyD- NewK*+ pi+ PHSP; +################################################### +# Four body decays estimated by Troels Petersen +# Partial Br Fr = 1.0e-3 +################################################### +0.0003 Myanti-D0 MyKs pi+ pi0 PHSP; +0.0004 Myanti-D0 K+ pi0 pi0 PHSP; +0.0001 MyD- MyKs pi+ pi+ PHSP; +0.0002 MyD- K+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +# D0 K- +0.00037 MyD0 K- PHSP; +0.00036 MyD*0 K- SVS; +0.00061 NewK*- MyD0 SVS; +0.00072 MyD*0 NewK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +# Three body +0.0002 MyD0 MyKs pi- PHSP; +0.00010 MyD0 K- pi0 PHSP; +0.00005 MyD+ K- pi- PHSP; +0.0004 MyD*0 K- pi0 PHSP; +0.0001 MyD*0 MyKs pi- PHSP; +0.0002 MyD*+ K- pi- PHSP; +0.0012 MyD0 NewK*- pi0 PHSP; +0.0002 MyD0 NewAnti-K*0 pi- PHSP; +0.0001 MyD+ NewK*- pi- PHSP; +# Four body +0.0003 MyD0 MyKs pi- pi0 PHSP; +0.0004 MyD0 K- pi0 pi0 PHSP; +0.0001 MyD+ MyKs pi- pi- PHSP; +0.0002 MyD+ K- pi- pi0 PHSP; +Enddecay +# +#### +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +#### +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +#### +# +Decay NewK*+ +# bf(Ks pi+) = (2/3) * (1/2) * bf(ks->pipi) +0.2287 MyKs pi+ VSS; +0.3333 K+ pi0 VSS; +Enddecay +# +Decay NewK*- +0.2287 MyKs pi- VSS; +0.3333 K- pi0 VSS; +Enddecay +# +#### +# +Decay NewK*0 +0.6667 K+ pi- VSS; +# bf(Ks pi0) = (1/3) * (1/2) * bf(ks->pipi) +0.1143 MyKs pi0 VSS; +Enddecay +# +Decay NewAnti-K*0 +0.6667 K- pi+ VSS; +0.1143 MyKs pi0 VSS; +Enddecay +# +#### +# +Decay MyD- +0.901 K+ pi- pi- D_DALITZ; +0.099 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.901 K- pi+ pi+ D_DALITZ; +0.099 MyKs pi+ PHSP; +Enddecay +# +#### +# +Decay MyD0 +# CP Even +0.00143 pi+ pi- PHSP; +0.00412 K+ K- PHSP; +0.00017 MyKs MyKs PHSP; +0.00084 pi0 pi0 PHSP; +# CP Odd +0.00782 MyKs pi0 PHSP; +0.00504 rho0 MyKs SVS; +0.0016 NewPhi MyKs SVS; +0.0016 MyKs NewEta PHSP; +0.00365 MyKs NewEtap PHSP; +0.0067 NewOmega MyKs SVS; +0.004 rho0 pi0 SVS; +Enddecay +# +Decay Myanti-D0 +# CP Even +0.00143 pi+ pi- PHSP; +0.00412 K+ K- PHSP; +0.00017 MyKs MyKs PHSP; +0.00084 pi0 pi0 PHSP; +# CP Odd +0.00782 MyKs pi0 PHSP; +0.00504 rho0 MyKs SVS; +0.0016 NewPhi MyKs SVS; +0.0016 MyKs NewEta PHSP; +0.00365 MyKs NewEtap PHSP; +0.0067 NewOmega MyKs SVS; +0.004 rho0 pi0 SVS; +Enddecay +# +#### +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +#### +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +#### +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +#### +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +#### +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +#### +# +Decay NewPhi +1.0000 K+ K- VSS; +Enddecay +# +#### +# +Decay NewOmega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +#### +# +Decay NewEta +0.3943 gamma gamma PHSP; +0.226 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# +#### +# +Decay NewEtap +0.443 pi+ pi- NewEta PHSP; +0.295 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End diff --git a/BaBar_2014/B0Pq_KstkLam.dec b/BaBar_2014/B0Pq_KstkLam.dec new file mode 100644 index 0000000..1ac3410 --- /dev/null +++ b/BaBar_2014/B0Pq_KstkLam.dec @@ -0,0 +1,86 @@ +########################################################## +# # +# Decay: B0 -> Pq(anti-Xi_c0) anti-Lambda0 # +# Ds(1968)- p+ anti-p- pi+, anti-B0 -> X # +# -> anti-Ds- p- # +# -> phi pi- # +# Author: Valerie Halyo # +########################################################## + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +ChargeConj MyK*0 Myanti-K*0 + +Particle Xi_c0 3.06 0.001 +Particle anti-Xi_c0 3.06 0.001 + +ChangeMassMin anti-Xi_c0 2.2 +ChangeMassMin Xi_c0 2.2 + + +ChangeMassMax anti-Xi_c0 3.3 +ChangeMassMax Xi_c0 3.3 + +Alias MyPq anti-Xi_c0 +Alias Myanti-Pq Xi_c0 + +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model + + +## +Decay Myanti-Pq +1.000 MyD_s+ anti-p- PHSP; +Enddecay + +## +Decay MyPq +1.000 MyD_s- p+ PHSP; +Enddecay + + +Decay MyB0 + 1.00000 MyPq myanti-Lambda0 PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 Myanti-Pq myLambda0 PHSP; +Enddecay +# +Decay MyD_s+ +1.000 Myanti-K*0 K+ SVS; +Enddecay +# +Decay MyD_s- +1.000 MyK*0 K- SVS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/B0Pq_KstkLamps.dec b/BaBar_2014/B0Pq_KstkLamps.dec new file mode 100644 index 0000000..e897926 --- /dev/null +++ b/BaBar_2014/B0Pq_KstkLamps.dec @@ -0,0 +1,62 @@ +########################################################## +# # +# Decay: B0 -> Pq(anti-Xi_c0) anti-Lambda0 # +# Ds(1968)- p+ anti-p- pi+, anti-B0 -> X # +# -> anti-Ds- p- # +# -> phi pi- # +# Author: Valerie Halyo # +########################################################## + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +ChargeConj MyD_s+ MyD_s- +ChargeConj Myanti-K*0 MyK*0 + +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model + +Decay MyB0 + 1.00000 MyD_s- p+ myanti-Lambda0 PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD_s+ anti-p- myLambda0 PHSP; +Enddecay +# +Decay MyD_s+ +1.000 Myanti-K*0 K+ SVS; +Enddecay +# +Decay MyD_s- +1.000 MyK*0 K- SVS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/B0Pq_kskLam.dec b/BaBar_2014/B0Pq_kskLam.dec new file mode 100644 index 0000000..d9b3412 --- /dev/null +++ b/BaBar_2014/B0Pq_kskLam.dec @@ -0,0 +1,81 @@ +########################################################## +# # +# Decay: B0 -> Pq(anti-Xi_c0) anti-Lambda0 # +# Ds(1968)- p+ anti-p- pi+, anti-B0 -> X # +# -> anti-Ds- p- # +# -> phi pi- # +# Authur Valerie Halyo # +########################################################## + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 + + +ChargeConj MyD_s+ MyD_s- +ChargeConj Myanti-K0 MyK0 + +Particle Xi_c0 3.06 0.001 +Particle anti-Xi_c0 3.06 0.001 + +ChangeMassMin anti-Xi_c0 2.2 +ChangeMassMin Xi_c0 2.2 + +ChangeMassMax anti-Xi_c0 3.3 +ChangeMassMax Xi_c0 3.3 + +Alias MyPq anti-Xi_c0 +Alias Myanti-Pq Xi_c0 + +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model +Decay Myanti-Pq +1.000 MyD_s+ anti-p- PHSP; +Enddecay +## +Decay MyPq +1.000 MyD_s- p+ PHSP; +Enddecay +# +Decay MyB0 + 1.00000 MyPq myanti-Lambda0 PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 Myanti-Pq myLambda0 PHSP; +Enddecay +# +Decay MyD_s- +1.000 MyK0 K- PHSP; +Enddecay +# +Decay MyD_s+ +1.000 Myanti-K0 K+ PHSP; +Enddecay +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +## +Decay Myanti-K0 +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +End diff --git a/BaBar_2014/B0Pq_kskLamps.dec b/BaBar_2014/B0Pq_kskLamps.dec new file mode 100644 index 0000000..7bb116f --- /dev/null +++ b/BaBar_2014/B0Pq_kskLamps.dec @@ -0,0 +1,69 @@ +########################################################## +# # +# Decay: B0 -> Pq(anti-Xi_c0) anti-Lambda0 # +# Ds(1968)- p+ anti-p- pi+, anti-B0 -> X # +# -> anti-Ds- p- # +# -> phi pi- # +# Authur Valerie Halyo # +########################################################## + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 + + +ChargeConj MyD_s+ MyD_s- +ChargeConj Myanti-K0 MyK0 + + +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model + +Decay MyB0 + 1.00000 MyD_s- p+ myanti-Lambda0 PHSP; +Enddecay +# + +Decay Myanti-B0 + 1.00000 MyD_s+ anti-p- myLambda0 PHSP; +Enddecay +# + +Decay MyD_s- +1.000 MyK0 K- PHSP; +Enddecay +# +Decay MyD_s+ +1.000 Myanti-K0 K+ PHSP; +Enddecay +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +## +Decay Myanti-K0 +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +End + + + + diff --git a/BaBar_2014/B0Pq_phipiLam.dec b/BaBar_2014/B0Pq_phipiLam.dec new file mode 100644 index 0000000..f5eefc0 --- /dev/null +++ b/BaBar_2014/B0Pq_phipiLam.dec @@ -0,0 +1,79 @@ +########################################################## +# # +# Decay: B0 -> Pq(anti-Xi_c0) anti-Lambda0 # +# Ds(1968)- p+ anti-p- pi+, anti-B0 -> X # +# -> anti-Ds- p- # +# -> phi pi- # +# Author: Valerie Halyo # +########################################################## + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias Myphi phi +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + + +ChargeConj MyD_s+ MyD_s- + +Particle Xi_c0 3.06 0.001 +Particle anti-Xi_c0 3.06 0.001 + +ChangeMassMin anti-Xi_c0 2.2 +ChangeMassMin Xi_c0 2.2 + + +ChangeMassMax anti-Xi_c0 3.3 +ChangeMassMax Xi_c0 3.3 + +Alias MyPq anti-Xi_c0 +Alias Myanti-Pq Xi_c0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model + + +## +Decay Myanti-Pq +1.000 MyD_s+ anti-p- PHSP; +Enddecay + +## +Decay MyPq +1.000 MyD_s- p+ PHSP; +Enddecay + + +Decay MyB0 + 1.00000 MyPq myanti-Lambda0 PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 Myanti-Pq myLambda0 PHSP; +Enddecay +# +Decay MyD_s+ +1.000 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0Pq_phipiLamps.dec b/BaBar_2014/B0Pq_phipiLamps.dec new file mode 100644 index 0000000..f551aa0 --- /dev/null +++ b/BaBar_2014/B0Pq_phipiLamps.dec @@ -0,0 +1,58 @@ +########################################################## +# # +# Decay: B0 -> Pq(anti-Xi_c0) anti-Lambda0 # +# Ds(1968)- p+ anti-p- pi+, anti-B0 -> X # +# -> anti-Ds- p- # +# -> phi pi- # +# Author: Valerie Halyo # +########################################################## + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias Myphi phi +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + + +ChargeConj MyD_s+ MyD_s- + +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model + + +Decay MyB0 + 1.00000 MyD_s- p+ myanti-Lambda0 PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 MyD_s+ anti-p- myLambda0 PHSP; +Enddecay +# +Decay MyD_s+ +1.000 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/B0Thetac.dec b/BaBar_2014/B0Thetac.dec new file mode 100644 index 0000000..b93b640 --- /dev/null +++ b/BaBar_2014/B0Thetac.dec @@ -0,0 +1,84 @@ + +######################################################### +# # +# Decay: B0 -> Thetac(Anti-Sigma_c0) anti-p- pi+ # +# D*(2010)- p+ anti-p- pi+, anti-B0 -> X # +# +-> anti-D0 pi- ( BF ) Relative # +# +-> K+ pi- ( 3.80%) 15.599% # +# +-> K+ pi- pi0 (13.1% ) 53.777% # +# +-> K+ pi- pi- pi+ ( 7.46%) 30.624% # +# Sum (24.36%) 100.000% # +# Author Valerie Halyo # +########################################################## + +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 + + +Particle Sigma_c0 3.099 0.001 +Particle anti-Sigma_c0 3.099 0.001 + +ChangeMassMin anti-Sigma_c0 2.997 +ChangeMassMin Sigma_c0 2.997 + + +ChangeMassMax anti-Sigma_c0 3.3 +ChangeMassMax Sigma_c0 3.3 + + +Alias Mythetac anti-Sigma_c0 +Alias Myanti-thetac Sigma_c0 +# +# Always one B0 that decays to the signal +# // Vector to Two Scalars with B0 mixing, dm=deltaM +Decay Upsilon(4S) + 1.00000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# // Phase Space model + + +## +Decay Myanti-thetac +1.000 MyD*+ anti-p- PHSP; +Enddecay + +## +Decay Mythetac +1.000 MyD*- p+ PHSP; +Enddecay + + +Decay MyB0 + 1.00000 Mythetac anti-p- pi+ PHSP; +Enddecay +# +Decay Myanti-B0 + 1.00000 Myanti-thetac p+ pi- PHSP; +Enddecay +# +Decay MyD*- + 1.00000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ + 1.00000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 + 0.15599 K+ pi- PHSP; + 0.53777 K+ pi- pi0 D_DALITZ; + 0.30624 K+ pi- pi- pi+ PHSP; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 + 0.15599 K- pi+ PHSP; + 0.53777 K- pi+ pi0 D_DALITZ; + 0.30624 K- pi+ pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0ToDlnuX_D0KpimormDpKpipi_B0barToKstar0nunu_Kpi.dec b/BaBar_2014/B0ToDlnuX_D0KpimormDpKpipi_B0barToKstar0nunu_Kpi.dec new file mode 100644 index 0000000..5fcdcd7 --- /dev/null +++ b/BaBar_2014/B0ToDlnuX_D0KpimormDpKpipi_B0barToKstar0nunu_Kpi.dec @@ -0,0 +1,251 @@ +################################################### +# # +# B0ToDlnuX_D0Kpi-or-D+Kpipi_B0barToKstar0nunu_Kpi# +# # +# Decay: B0 -> D0bar l+ nu X B0bar -> K*0nunubar # +# | | # +# |->K+ pi- |->K- pi+ # +# or # +# B0 -> D- l+ nu X B0bar -> K*0nunubar # +# | | # +# |->K+ pi- pi- |->K- pi+ # +# # +# + cc # +# # +# The semileptonic B BRs and excited charm BRs # +# have been taken from the analysis-8 version of # +# DECAY.DEC; they may need to be changed in future# +# versions of this decay file. # +# # +# Author: Bob Kowalewski kowalews@uvic.ca # +# 2001/04/30 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MySB0 B0 +Alias MySanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD*- D*- +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD_10 D_10 +Alias Myanti-D_10 anti-D_10 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD'_10 D'_10 +Alias Myanti-D'_10 anti-D'_10 +Alias MyD_0*+ D_0*+ +Alias MyD_0*- D_0*- +Alias MyD_0*0 D_0*0 +Alias Myanti-D_0*0 anti-D_0*0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD_2*0 D_2*0 +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +0.420 MyB0 MySanti-B0 VSS_MIX dm; +0.420 Myanti-B0 MySB0 VSS_MIX dm; +0.080 Myanti-B0 MySanti-B0 VSS_MIX dm; +0.080 MyB0 MySB0 VSS_MIX dm; +Enddecay +# +Decay MySB0 +1.0000 MyK*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MySanti-B0 +1.0000 Myanti-K*0 nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyK*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay Myanti-B0 +# b -> c semileptonic +# +0.0560 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD+ e- anti-nu_e PHOTOS ISGW2; +0.0056 MyD_1+ e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD_0*+ e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD'_1+ e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD_2*+ e- anti-nu_e PHOTOS ISGW2; +0.0010 MyD*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0020 MyD*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 MyD+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 MyD0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD+ mu- anti-nu_mu PHOTOS ISGW2; +0.0056 MyD_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD_0*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD'_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0010 MyD*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0020 MyD*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 MyD+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 MyD0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyB0 +# b -> c semileptonic +0.0560 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD- e+ nu_e PHOTOS ISGW2; +0.0056 MyD_1- e+ nu_e PHOTOS ISGW2; +0.0020 MyD_0*- e+ nu_e PHOTOS ISGW2; +0.0037 MyD'_1- e+ nu_e PHOTOS ISGW2; +0.0037 MyD_2*- e+ nu_e PHOTOS ISGW2; +0.0010 MyD*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0020 Myanti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 MyD- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 Myanti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD- mu+ nu_mu PHOTOS ISGW2; +0.0056 MyD_1- mu+ nu_mu PHOTOS ISGW2; +0.0020 MyD_0*- mu+ nu_mu PHOTOS ISGW2; +0.0037 MyD'_1- mu+ nu_mu PHOTOS ISGW2; +0.0037 MyD_2*- mu+ nu_mu PHOTOS ISGW2; +0.0010 MyD*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0020 Myanti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 MyD- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 Myanti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +# Vector Mesons +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +0.3060 MyD+ pi0 VSS; +0.0110 MyD+ gamma VSP_PWAVE; +Enddecay +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +0.3060 MyD- pi0 VSS; +0.0110 MyD- gamma VSP_PWAVE; +Enddecay +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +# D** +# +Decay MyD_0*+ +0.3333 MyD+ pi0 PHSP; +0.6667 MyD0 pi+ PHSP; +Enddecay +Decay MyD_0*- +0.3333 MyD- pi0 PHSP; +0.6667 Myanti-D0 pi- PHSP; +Enddecay +Decay MyD_0*0 +0.3333 MyD0 pi0 PHSP; +0.6667 MyD+ pi- PHSP; +Enddecay +Decay Myanti-D_0*0 +0.3333 Myanti-D0 pi0 PHSP; +0.6667 MyD- pi+ PHSP; +Enddecay +# +Decay MyD_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay MyD_1- +0.3333 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +Enddecay +Decay MyD_10 +0.3333 MyD*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay Myanti-D_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD'_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.3333 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0 +; +Enddecay +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 MyD*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay Myanti-D'_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD+ pi0 TSS; +0.4590 MyD0 pi+ TSS; +Enddecay +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 Myanti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD- pi0 TSS; +0.4590 Myanti-D0 pi- TSS; +Enddecay +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1030 MyD*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD0 pi0 TSS; +0.4590 MyD+ pi- TSS; +Enddecay +Decay Myanti-D_2*0 +0.1030 Myanti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0 +; +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 Myanti-D0 pi0 TSS; +0.4590 MyD- pi+ TSS; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +End + + + diff --git a/BaBar_2014/B0ToDs_DsmDsToKsK.dec b/BaBar_2014/B0ToDs_DsmDsToKsK.dec new file mode 100644 index 0000000..86788d7 --- /dev/null +++ b/BaBar_2014/B0ToDs_DsmDsToKsK.dec @@ -0,0 +1,61 @@ +########################################################## +# # +# Decay: B0 -> D_s- D_s+, : anti-B0 -> X # +# | | # +# |->K0 K- |->K0bar K+ # +# | | # +# -> Ks -> Ks # +# | | # +# -> pi+ pi- -> pi+ pi- # +# # +# Author: Asish Satpathy # +# Date: 23/April/2004 # +########################################################## +# +## B0 -> Ds Ds -> Ks K + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK0 Myanti-K0 +ChargeConj MyKs MyKs + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.000 MyD_s- MyD_s+ PHSP; +Enddecay + +CDecay Myanti-B0 + +Decay MyD_s- +1.000 MyK0 K- PHSP; +Enddecay + +CDecay MyD_s+ + +Decay MyK0 +1.000 MyKs PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay + +End + + + + + diff --git a/BaBar_2014/B0ToDs_DsmDsToKstar0K.dec b/BaBar_2014/B0ToDs_DsmDsToKstar0K.dec new file mode 100644 index 0000000..02e84ac --- /dev/null +++ b/BaBar_2014/B0ToDs_DsmDsToKstar0K.dec @@ -0,0 +1,65 @@ +####################################################################### +# # +# Decay: B0 -> D_s- D_s+, : anti-B0 -> X # +# |->K*0(892) K- |->K*0(892)_bar K+ # +# | | # +# -> K+ pi- -> K- pi+ # +# # +# Author: Asish Satpathy # +# Date: 24/April/2004 # +####################################################################### +# +## B0 -> Ds Ds -> K*0(892) K + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyKstar K*0 +Alias MyantiKstar anti-K*0 + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s+ MyD_s- +ChargeConj MyKstar MyantiKstar + +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay + +Decay MyB0 +1.000 MyD_s- MyD_s+ PHSP; +Enddecay + +CDecay Myanti-B0 + +Decay MyD_s- +1.000 MyKstar K- SVS; +Enddecay + +CDecay MyD_s+ + +Decay MyKstar +1.000 K+ pi- VSS; +Enddecay + +CDecay MyantiKstar + +End + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/B0ToDs_starDs_star.dec b/BaBar_2014/B0ToDs_starDs_star.dec new file mode 100644 index 0000000..bc8c3ca --- /dev/null +++ b/BaBar_2014/B0ToDs_starDs_star.dec @@ -0,0 +1,68 @@ +########################################################## +# # +# Decay: B0 -> Ds*+ Ds*- : anti-B0 -> X # +# |->D_s+ gamma |->D_s- gamma # +# | | # +# |-> phi pi+ |-> phi pi- # +# # +# Author: Asish Satpathy # +# Date: 17/March/2004 # +########################################################## + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias Myphi phi + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj Myphi Myphi + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +Decay MyB0 +1.000 MyD_s*+ MyD_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD_s*+ +1.000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# + +CDecay MyD_s*- + +# +Decay MyD_s+ +1.000 Myphi pi+ SVS; +Enddecay +# + +CDecay MyD_s- + +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# + +End + + + + + + + diff --git a/BaBar_2014/B0ToDs_starDs_starmDsToKsK.dec b/BaBar_2014/B0ToDs_starDs_starmDsToKsK.dec new file mode 100644 index 0000000..b72bf6c --- /dev/null +++ b/BaBar_2014/B0ToDs_starDs_starmDsToKsK.dec @@ -0,0 +1,77 @@ +########################################################## +# # +# Decay: B0 -> Ds*+ Ds*- : anti-B0 -> X # +# |->D_s+ gamma |->D_s- gamma # +# | | # +# |-> K0_bar K+ |-> K0 K- # +# | | # +# -> Ks ->Ks # +# | | # +# -> pi+ pi- -> pi+ pi- # +# Author: Asish Satpathy # +# Date: 10/March/2004 # +########################################################## + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK0 Myanti-K0 +ChargeConj MyKs MyKs + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +Decay MyB0 +1.000 MyD_s*+ MyD_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD_s*- +1.000 MyD_s- gamma VSP_PWAVE; +Enddecay +# + +CDecay MyD_s*+ + +# +Decay MyD_s- +1.000 MyK0 K- PHSP; +Enddecay +# + +CDecay MyD_s+ + +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +CDecay Myanti-K0 +# + +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# + +End + + diff --git a/BaBar_2014/B0ToDs_starDs_starmDsToKstar0K.dec b/BaBar_2014/B0ToDs_starDs_starmDsToKstar0K.dec new file mode 100644 index 0000000..e152c87 --- /dev/null +++ b/BaBar_2014/B0ToDs_starDs_starmDsToKstar0K.dec @@ -0,0 +1,71 @@ +#################################################################### +# # +# Decay: B0 -> Ds*+ Ds*- : anti-B0 -> X # +# |->D_s+ gamma |->D_s- gamma # +# | | # +# |-> K*0_bar K+ |-> K*0 K- # +# | | # +# -> K- pi+ -> K+ pi- # +# Author: Asish Satpathy # +# Date: 23/April/2004 # +#################################################################### + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias Myphi phi +Alias MyKstar K*0 +Alias MyantiKstar anti-K*0 + + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyKstar MyantiKstar + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +Decay MyB0 +1.000 MyD_s*+ MyD_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD_s*- +1.000 MyD_s- gamma VSP_PWAVE; +Enddecay +# + +CDecay MyD_s*+ + +# +Decay MyD_s- +1.000 MyKstar K- SVS; +Enddecay +# + +CDecay MyD_s+ + +# +Decay MyKstar +1.000 K+ pi- VSS; +Enddecay +# + +CDecay MyantiKstar + +End + + + + diff --git a/BaBar_2014/B0ToDs_star_Ds.dec b/BaBar_2014/B0ToDs_star_Ds.dec new file mode 100644 index 0000000..411733f --- /dev/null +++ b/BaBar_2014/B0ToDs_star_Ds.dec @@ -0,0 +1,67 @@ +########################################################## +# # +# Decay: B0 -> Ds*+ Ds- : anti-B0 -> X # +# |->D_s+ gamma | # +# | |-> phi pi- # +# |-> phi pi+ # +# # +# Author: Asish Satpathy # +# Date: 17/March/2004 # +########################################################## + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias Myphi phi + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj Myphi Myphi + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +Decay MyB0 +1.000 MyD_s*+ MyD_s- SVS; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD_s*+ +1.000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# + +CDecay MyD_s*- + +# +Decay MyD_s+ +1.000 Myphi pi+ SVS; +Enddecay +# + +CDecay MyD_s- + +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# + +End + + + + + + diff --git a/BaBar_2014/B0ToDs_star_DsmDsToKsK.dec b/BaBar_2014/B0ToDs_star_DsmDsToKsK.dec new file mode 100644 index 0000000..4e95dcd --- /dev/null +++ b/BaBar_2014/B0ToDs_star_DsmDsToKsK.dec @@ -0,0 +1,77 @@ +########################################################## +# # +# Decay: B0 -> Ds*+ Ds- : anti-B0 -> X # +# |->D_s+ gamma | # +# | |-> K0 K- # +# |-> K0_bar K+ | # +# | -> Ks # +# -> Ks | # +# | -> pi+ pi- # +# -> pi+ pi- # +# Author: Asish Satpathy # +# Date: 23/April/2004 # +########################################################## + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK0 Myanti-K0 +ChargeConj MyKs MyKs + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +Decay MyB0 +1.000 MyD_s*+ MyD_s- SVS; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD_s*- +1.000 MyD_s- gamma VSP_PWAVE; +Enddecay +# + +CDecay MyD_s*+ + +# +Decay MyD_s- +1.000 MyK0 K- PHSP; +Enddecay +# + +CDecay MyD_s+ + +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +CDecay Myanti-K0 +# + +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay + +End + + + + diff --git a/BaBar_2014/B0ToDs_star_DsmDsToKstar0K.dec b/BaBar_2014/B0ToDs_star_DsmDsToKstar0K.dec new file mode 100644 index 0000000..42959e1 --- /dev/null +++ b/BaBar_2014/B0ToDs_star_DsmDsToKstar0K.dec @@ -0,0 +1,68 @@ +############################################################# +# # +# Decay: B0 -> Ds*+ Ds- : anti-B0 -> X # +# |->D_s+ gamma | # +# | |-> K*0 K- # +# |-> K*0bar K+ | # +# | -> K+ pi- # +# -> K- pi+ # +# Author: Asish Satpathy # +# Date: 23/April/2004 # +############################################################# + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyKstar K*0 +Alias MyantiKstar anti-K*0 + +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyKstar MyantiKstar + +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# + +# +Decay MyB0 +1.000 MyD_s*+ MyD_s- SVS; +Enddecay +# + +CDecay Myanti-B0 + +# +Decay MyD_s*- +1.000 MyD_s- gamma VSP_PWAVE; +Enddecay +# + +CDecay MyD_s*+ + +# +Decay MyD_s- +1.000 MyKstar K- SVS; +Enddecay +# + +CDecay MyD_s+ + +# +Decay MyKstar +1.000 K+ pi- VSS; +Enddecay +# + +CDecay MyantiKstar + +End + + + diff --git a/BaBar_2014/B0_Dch2pi.dec b/BaBar_2014/B0_Dch2pi.dec new file mode 100644 index 0000000..7c52022 --- /dev/null +++ b/BaBar_2014/B0_Dch2pi.dec @@ -0,0 +1,50 @@ +######################################################### +# Decay: B0 -> D- (pi0pi+); B0bar -> X; + cc # +# \ \ # +# \ \____rho+, pi0pi # +# \ # +# \__Kpipi # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias Myrho+ rho+ +Alias Myrho- rho- +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.60 MyD- pi0 pi+ PHSP; +0.40 Myrho+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.60 MyD+ pi0 pi- PHSP; +0.40 Myrho- MyD+ SVS; +Enddecay +# +Decay MyD- +1.0 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay Myrho- +1.0 pi0 pi- VSS; +Enddecay +# +Decay Myrho+ +1.0 pi0 pi+ VSS; +Enddecay +End + + diff --git a/BaBar_2014/B0_Dch3pi.dec b/BaBar_2014/B0_Dch3pi.dec new file mode 100644 index 0000000..6d509f6 --- /dev/null +++ b/BaBar_2014/B0_Dch3pi.dec @@ -0,0 +1,64 @@ +######################################################### +# Decay: B0 -> D- (3pi)+; B0bar -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1+; # +# \ # +# \__Kpipi, Kspi # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.40 MyD- pi- pi+ pi+ PHSP; +0.40 MyD- Myrho0 pi+ PHSP; +0.20 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.40 MyD+ pi+ pi- pi- PHSP; +0.40 MyD+ Myrho0 pi- PHSP; +0.20 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD- +0.5 K+ pi- pi- D_DALITZ; +0.5 MyKs pi- PHSP; +Enddecay +# +Decay MyD+ +0.5 K- pi+ pi+ D_DALITZ; +0.5 MyKs pi+ PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +End + + diff --git a/BaBar_2014/B0_DchPiPiPi.dec b/BaBar_2014/B0_DchPiPiPi.dec new file mode 100644 index 0000000..905039d --- /dev/null +++ b/BaBar_2014/B0_DchPiPiPi.dec @@ -0,0 +1,59 @@ +######################################################### +# Decay: B0 -> D- (3pi)+; B0bar -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1+; # +# \ # +# \__Kpipi # +# # +# Author: Haiwen Zhao # +# Date: 04/26/2004 # +######################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD- D- +Alias MyD+ D+ +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.40 MyD- pi- pi+ pi+ PHSP; +0.40 MyD- Myrho0 pi+ PHSP; +0.20 Mya_1+ MyD- SVS; +Enddecay +# +Decay Myanti-B0 +0.40 MyD+ pi+ pi- pi- PHSP; +0.40 MyD+ Myrho0 pi- PHSP; +0.20 Mya_1- MyD+ SVS; +Enddecay +# +Decay MyD- +1.0 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay + +End + + + diff --git a/BaBar_2014/B0_Dstar2pi.dec b/BaBar_2014/B0_Dstar2pi.dec new file mode 100644 index 0000000..1da9d57 --- /dev/null +++ b/BaBar_2014/B0_Dstar2pi.dec @@ -0,0 +1,67 @@ +######################################################### +# Decay: B0 -> D*- (pi0pi)+; B0bar -> X; + cc # +# \ \ # +# \ \____rho+, pi0pi # +# \ # +# \__D0pi-, (D0->Kpi) # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Myrho+ rho+ +Alias Myrho- rho- +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.60 MyD*- pi0 pi+ PHSP; +0.40 Myrho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay Myanti-B0 +0.60 MyD*+ pi0 pi- PHSP; +0.40 Myrho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myrho- +1.0 pi0 pi- VSS; +Enddecay +# +Decay Myrho+ +1.0 pi0 pi+ VSS; +Enddecay +End + + + + + + + + + diff --git a/BaBar_2014/B0_Dstar3pi.dec b/BaBar_2014/B0_Dstar3pi.dec new file mode 100644 index 0000000..0c1bac4 --- /dev/null +++ b/BaBar_2014/B0_Dstar3pi.dec @@ -0,0 +1,125 @@ +######################################################### +# Decay: B0 -> D*- (3pi)+; B0bar -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1+; # +# \ # +# \__D0pi-, (D0->Kpi, Kpipi0, Kpipipi) # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.40 MyD*- pi- pi+ pi+ PHSP; +0.40 MyD*- Myrho0 pi+ PHSP; +0.20 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay Myanti-B0 +0.40 MyD*+ pi+ pi- pi- PHSP; +0.40 MyD*+ Myrho0 pi- PHSP; +0.20 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.3 K- pi+ PHSP; +0.3122 K- pi+ pi0 D_DALITZ; +## K 3pi (0.277*1.4 total) +0.1778 Mya_1+ K- SVS; +0.01722 MyK_1- pi+ SVS; +0.0525 Myanti-K*0 pi+ pi- PHSP; +0.02716 K- pi+ rho0 PHSP; +0.06468 K- pi+ pi+ pi- PHSP; +0.04844 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.3 K+ pi- PHSP; +0.3122 K+ pi- pi0 D_DALITZ; +## K 3pi (0.277*1.4 total) +0.1778 Mya_1- K+ SVS; +0.01722 MyK_1+ pi- SVS; +0.0525 MyK*0 pi- pi+ PHSP; +0.02716 K+ pi- rho0 PHSP; +0.06468 K+ pi- pi- pi+ PHSP; +0.04844 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + + diff --git a/BaBar_2014/B0_DstarPiPiPi.dec b/BaBar_2014/B0_DstarPiPiPi.dec new file mode 100644 index 0000000..b7eb293 --- /dev/null +++ b/BaBar_2014/B0_DstarPiPiPi.dec @@ -0,0 +1,76 @@ +######################################################### +# Decay: B0 -> D*- (3pi)+; B0bar -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1+; # +# \ # +# \__D0pi-, D0->Kpi # +# # +# Author: Haiwen Zhao # +# Date: 04/26/2003 # +######################################################### +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.40 MyD*- pi- pi+ pi+ PHSP; +0.40 MyD*- Myrho0 pi+ PHSP; +0.20 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay Myanti-B0 +0.40 MyD*+ pi+ pi- pi- PHSP; +0.40 MyD*+ Myrho0 pi- PHSP; +0.20 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay + +End + + + + + + diff --git a/BaBar_2014/B0_XKs_XTOJPsiOmega.dec b/BaBar_2014/B0_XKs_XTOJPsiOmega.dec new file mode 100644 index 0000000..dc792a3 --- /dev/null +++ b/BaBar_2014/B0_XKs_XTOJPsiOmega.dec @@ -0,0 +1,56 @@ +################################################################### +# B0 --> X3870 Ks B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# # +# + charge conjugate # +# # +# # +# Author: Eric Eckhart # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0_hcKs_3had_pm.dec b/BaBar_2014/B0_hcKs_3had_pm.dec new file mode 100644 index 0000000..29a603b --- /dev/null +++ b/BaBar_2014/B0_hcKs_3had_pm.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B0 -> h_c KS, B0bar -> X # +# | | # +# ->3 mesons ->pi+pi- # +# + cc # +# # +# Author: S. Tosi 18/06/01 # +############################################################ +# +Define beta 0.34 +Define minusTwoBeta -0.68 +# +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyH_c h_c +# +Decay Upsilon(4S) + 1.0000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyAnti-B0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +# +Decay MyH_c + 0.25 MyK_S0 K+ pi- PHSP; + 0.25 MyK_S0 K- pi+ PHSP; + 0.5 K+ K- pi0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +End + + + + + + + + + diff --git a/BaBar_2014/B0_hcKs_4had_pm.dec b/BaBar_2014/B0_hcKs_4had_pm.dec new file mode 100644 index 0000000..23a7b98 --- /dev/null +++ b/BaBar_2014/B0_hcKs_4had_pm.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B0 -> h_c Ks, B0bar -> X # +# | | # +# ->4 mesons ->pi+ pi- # +# # +# + cc # +# # +# Author: S. Tosi 18/06/01 # +############################################################ +# +Define beta 0.34 +Define minusTwoBeta -0.68 +# +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyH_c h_c +# +Decay Upsilon(4S) + 1.0000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyAnti-B0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyH_c + 0.33333 pi+ pi- K+ K- PHSP; + 0.33333 K+ K- K+ K- PHSP; + 0.33333 pi+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +End + + + + + + + + + diff --git a/BaBar_2014/B0_hcKs_JpsiX_pm.dec b/BaBar_2014/B0_hcKs_JpsiX_pm.dec new file mode 100644 index 0000000..dbe44d9 --- /dev/null +++ b/BaBar_2014/B0_hcKs_JpsiX_pm.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B0 -> h_c Ks, B0bar -> X # +# | | # +# J/psi X ->pi+ pi- # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: E. Robutti # +# Created: May 22 2001 # +############################################################ +# +Define beta 0.34 +Define minusTwoBeta -0.68 +# +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Alias MyH_c h_c +# +Decay Upsilon(4S) + 1.0000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +# +Decay MyB0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyAnti-B0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +# +Decay MyH_c + 0.5000 MyJ/psi pi+ pi- PHSP; + 0.5000 MyJ/psi pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay MyJ/psi + 0.5000 e+ e- PHOTOS VLL; + 0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0_hcKs_etacGam_X_pm.dec b/BaBar_2014/B0_hcKs_etacGam_X_pm.dec new file mode 100644 index 0000000..be5513b --- /dev/null +++ b/BaBar_2014/B0_hcKs_etacGam_X_pm.dec @@ -0,0 +1,68 @@ +############################################################ +# # +# Decay: B0 -> h_c KS, B0bar -> X # +# | | # +# ->eta_c gamma ->pi+pi- # +# | # +# -> X # +# + cc # +# # +# Author: S. Tosi 18/06/01 # +############################################################ +# +Define beta 0.34 +Define minusTwoBeta -0.68 +# +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyK_S0 K_S0 +Alias MyEta_c eta_c +Alias MyH_c h_c +Alias MyPhi phi +# +Decay Upsilon(4S) + 1.0000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyAnti-B0 + 1.000 MyH_c MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; +Enddecay +# +# +Decay MyH_c + 1.0000 MyEta_c gamma VSP_PWAVE; +Enddecay +# +Decay MyEta_c +0.0012 p+ anti-p- PHSP; +0.0071 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +0.0120 pi+ pi- pi+ pi- PHSP; +0.0210 K+ K- K+ K- PHSP; +0.0200 K+ K- pi+ pi- PHSP; +0.0092 pi0 K+ K- PHSP; +0.0184 K+ MyK_S0 pi- PHSP; +0.0184 K- MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/B0allB0barpipi_crn.dec b/BaBar_2014/B0allB0barpipi_crn.dec new file mode 100644 index 0000000..8f53134 --- /dev/null +++ b/BaBar_2014/B0allB0barpipi_crn.dec @@ -0,0 +1,21 @@ +################################################### +# # +# Decay: B0 -> X anti-B0->Pi Pi # +# # +# Comments: Cornelius training NO mixing # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 21/Feb/99 # +################################################### +# +Alias MyB0B anti-B0 +# +Decay Upsilon(4S) +1.000 B0 MyB0B VSS_MIX dm; +Enddecay +# +Decay MyB0B +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0barallB0pipi_crn.dec b/BaBar_2014/B0barallB0pipi_crn.dec new file mode 100644 index 0000000..b69e6f9 --- /dev/null +++ b/BaBar_2014/B0barallB0pipi_crn.dec @@ -0,0 +1,21 @@ +################################################### +# # +# Decay: B0 -> pi pi anti-B0->X # +# # +# Comments: Cornelius training NO mixing # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 21/Feb/99 # +################################################### +# +Alias MyB0 B0 +# +Decay Upsilon(4S) +1.000 MyB0 anti-B0 VSS_MIX dm; +Enddecay +# +Decay MyB0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0baretapD0.dec b/BaBar_2014/B0baretapD0.dec new file mode 100644 index 0000000..268dd90 --- /dev/null +++ b/BaBar_2014/B0baretapD0.dec @@ -0,0 +1,50 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. D0 Myetap PHSP; +Enddecay + +Decay MyB0 +1. anti-D0 Myetap PHSP; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# + + +End diff --git a/BaBar_2014/B0baretapD0K3Pietapipigg.dec b/BaBar_2014/B0baretapD0K3Pietapipigg.dec new file mode 100644 index 0000000..b1f5183 --- /dev/null +++ b/BaBar_2014/B0baretapD0K3Pietapipigg.dec @@ -0,0 +1,104 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ pi- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0k3pi Myetap PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bk3pi Myetap PHSP; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +End diff --git a/BaBar_2014/B0baretapD0KPiPi0etapipigg.dec b/BaBar_2014/B0baretapD0KPiPi0etapipigg.dec new file mode 100644 index 0000000..b7efdc3 --- /dev/null +++ b/BaBar_2014/B0baretapD0KPiPi0etapipigg.dec @@ -0,0 +1,60 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ pi0 +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpipi0 Myetap PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpipi0 Myetap PHSP; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0baretapD0KPietapipigg.dec b/BaBar_2014/B0baretapD0KPietapipigg.dec new file mode 100644 index 0000000..db9c158 --- /dev/null +++ b/BaBar_2014/B0baretapD0KPietapipigg.dec @@ -0,0 +1,60 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpi Myetap PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpi Myetap PHSP; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0baretapDstar0.dec b/BaBar_2014/B0baretapDstar0.dec new file mode 100644 index 0000000..774510a --- /dev/null +++ b/BaBar_2014/B0baretapDstar0.dec @@ -0,0 +1,65 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myetap SVS; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +1. gamma gamma PHSP; + +Enddecay +# + +Decay MyD*0 +0.619 D0 pi0 VSS; +0.381 D0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 anti-D0 pi0 VSS; +0.381 anti-D0 gamma VSP_PWAVE; +Enddecay +# + + + +End diff --git a/BaBar_2014/B0etaD0K3Pigg.dec b/BaBar_2014/B0etaD0K3Pigg.dec new file mode 100644 index 0000000..fb8df4f --- /dev/null +++ b/BaBar_2014/B0etaD0K3Pigg.dec @@ -0,0 +1,100 @@ +################################################################### +# +#B0->Eta D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0k3pi Myeta PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bk3pi Myeta PHSP; +Enddecay + + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + +End diff --git a/BaBar_2014/B0etaD0K3Pipipipi0.dec b/BaBar_2014/B0etaD0K3Pipipipi0.dec new file mode 100644 index 0000000..fa4ec13 --- /dev/null +++ b/BaBar_2014/B0etaD0K3Pipipipi0.dec @@ -0,0 +1,101 @@ +################################################################### +# +#B0->Eta D0 Bbar -> X ## | +# --pi+ pi- pi0, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0k3pi Myeta PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bk3pi Myeta PHSP; +Enddecay + + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay + +# + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + +End diff --git a/BaBar_2014/B0etaD0KPiPi0gg.dec b/BaBar_2014/B0etaD0KPiPi0gg.dec new file mode 100644 index 0000000..2bfb2fb --- /dev/null +++ b/BaBar_2014/B0etaD0KPiPi0gg.dec @@ -0,0 +1,57 @@ +################################################################### +# +#B0->Eta D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpipi0 Myeta PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpipi0 Myeta PHSP; +Enddecay + + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + + +End diff --git a/BaBar_2014/B0etaD0KPiPi0pipipi0.dec b/BaBar_2014/B0etaD0KPiPi0pipipi0.dec new file mode 100644 index 0000000..9a83f45 --- /dev/null +++ b/BaBar_2014/B0etaD0KPiPi0pipipi0.dec @@ -0,0 +1,57 @@ +################################################################### +# +#B0->Eta D0 Bbar -> X ## | +# --pi+ pi- pi0, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpipi0 Myeta PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpipi0 Myeta PHSP; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay + +# + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + + +End diff --git a/BaBar_2014/B0etaD0KPigg.dec b/BaBar_2014/B0etaD0KPigg.dec new file mode 100644 index 0000000..802071d --- /dev/null +++ b/BaBar_2014/B0etaD0KPigg.dec @@ -0,0 +1,54 @@ +################################################################### +# +#B0->Eta D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpi Myeta PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpi Myeta PHSP; +Enddecay + + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0etaD0KPipipipi0.dec b/BaBar_2014/B0etaD0KPipipipi0.dec new file mode 100644 index 0000000..1e2cb93 --- /dev/null +++ b/BaBar_2014/B0etaD0KPipipipi0.dec @@ -0,0 +1,55 @@ +################################################################### +# +#B0->Eta D0 Bbar -> X ## | +# --pi+ pi- pi0, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpi Myeta PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpi Myeta PHSP; +Enddecay + + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay + +# + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0etaD0star_D0K3Pi_gg.dec b/BaBar_2014/B0etaD0star_D0K3Pi_gg.dec new file mode 100644 index 0000000..3e710dc --- /dev/null +++ b/BaBar_2014/B0etaD0star_D0K3Pi_gg.dec @@ -0,0 +1,112 @@ +################################################################### +# +#B0->Eta D*0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myeta SVS; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + + +End diff --git a/BaBar_2014/B0etaD0star_D0K3Pi_pipipi0.dec b/BaBar_2014/B0etaD0star_D0K3Pi_pipipi0.dec new file mode 100644 index 0000000..27aa4bc --- /dev/null +++ b/BaBar_2014/B0etaD0star_D0K3Pi_pipipi0.dec @@ -0,0 +1,112 @@ +################################################################### +# +#B0->Eta D*0 Bbar -> X ## | +# --pi+ pi- pi0, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myeta SVS; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + + +End diff --git a/BaBar_2014/B0etaD0star_D0KPiPi0_gg.dec b/BaBar_2014/B0etaD0star_D0KPiPi0_gg.dec new file mode 100644 index 0000000..2bd387b --- /dev/null +++ b/BaBar_2014/B0etaD0star_D0KPiPi0_gg.dec @@ -0,0 +1,71 @@ +################################################################### +# +#B0->Eta D*0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myeta SVS; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + + +End diff --git a/BaBar_2014/B0etaD0star_D0KPiPi0_pipipi0.dec b/BaBar_2014/B0etaD0star_D0KPiPi0_pipipi0.dec new file mode 100644 index 0000000..95b034f --- /dev/null +++ b/BaBar_2014/B0etaD0star_D0KPiPi0_pipipi0.dec @@ -0,0 +1,71 @@ +################################################################### +# +#B0->Eta D*0 Bbar -> X ## | +# --pi+ pi- pi0, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myeta SVS; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + + +End diff --git a/BaBar_2014/B0etaD0star_D0KPi_gg.dec b/BaBar_2014/B0etaD0star_D0KPi_gg.dec new file mode 100644 index 0000000..752af78 --- /dev/null +++ b/BaBar_2014/B0etaD0star_D0KPi_gg.dec @@ -0,0 +1,66 @@ +################################################################### +# +#B0->Eta D*0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myeta SVS; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/B0etaD0star_D0KPi_pipipi0.dec b/BaBar_2014/B0etaD0star_D0KPi_pipipi0.dec new file mode 100644 index 0000000..e686aec --- /dev/null +++ b/BaBar_2014/B0etaD0star_D0KPi_pipipi0.dec @@ -0,0 +1,66 @@ +################################################################### +# +#B0->Eta D*0 Bbar -> X ## | +# --pi+ pi- pi0, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myeta SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myeta SVS; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/B0etapD0K3Pietapipigg.dec b/BaBar_2014/B0etapD0K3Pietapipigg.dec new file mode 100644 index 0000000..d8fea1e --- /dev/null +++ b/BaBar_2014/B0etapD0K3Pietapipigg.dec @@ -0,0 +1,53 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ pi- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. D0 eta' PHSP; +Enddecay + +Decay MyB0 +1. anti-D0 eta' PHSP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; +Enddecay +# + +Decay D0 +1. K- pi+ pi- pi+ PHSP; +Enddecay + +Decay anti-D0 +1. K+ pi- pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0etapD0K3Pirho0g.dec b/BaBar_2014/B0etapD0K3Pirho0g.dec new file mode 100644 index 0000000..42d3e68 --- /dev/null +++ b/BaBar_2014/B0etapD0K3Pirho0g.dec @@ -0,0 +1,99 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --rho0 g, D0->K- pi+ pi- pi+ +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0k3pi Myetap PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bk3pi Myetap PHSP; +Enddecay + +Decay Myetap +1. rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +End diff --git a/BaBar_2014/B0etapD0KPiPi0etapipigg.dec b/BaBar_2014/B0etapD0KPiPi0etapipigg.dec new file mode 100644 index 0000000..fcaaf70 --- /dev/null +++ b/BaBar_2014/B0etapD0KPiPi0etapipigg.dec @@ -0,0 +1,53 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ pi0 +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. D0 eta' PHSP; +Enddecay + +Decay MyB0 +1. anti-D0 eta' PHSP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; +Enddecay +# + +Decay D0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay anti-D0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0etapD0KPiPi0rho0g.dec b/BaBar_2014/B0etapD0KPiPi0rho0g.dec new file mode 100644 index 0000000..348b8f2 --- /dev/null +++ b/BaBar_2014/B0etapD0KPiPi0rho0g.dec @@ -0,0 +1,55 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --rho0 g, D0->K- pi+ pi0 +# | +# -pipi +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpipi0 Myetap PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpipi0 Myetap PHSP; +Enddecay + +Decay Myetap +1. rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + +End diff --git a/BaBar_2014/B0etapD0KPietapipigg.dec b/BaBar_2014/B0etapD0KPietapipigg.dec new file mode 100644 index 0000000..b0ae851 --- /dev/null +++ b/BaBar_2014/B0etapD0KPietapipigg.dec @@ -0,0 +1,53 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. D0 eta' PHSP; +Enddecay + +Decay MyB0 +1. anti-D0 eta' PHSP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; +Enddecay +# + +Decay D0 +1. K- pi+ PHSP; +Enddecay + +Decay anti-D0 +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0etapD0KPirho0g.dec b/BaBar_2014/B0etapD0KPirho0g.dec new file mode 100644 index 0000000..4a5ae14 --- /dev/null +++ b/BaBar_2014/B0etapD0KPirho0g.dec @@ -0,0 +1,56 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --rho0 g, D0->K- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpi Myetap PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpi Myetap PHSP; +Enddecay + +Decay Myetap +1. rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0etapD0etapipigg.dec b/BaBar_2014/B0etapD0etapipigg.dec new file mode 100644 index 0000000..cc9094d --- /dev/null +++ b/BaBar_2014/B0etapD0etapipigg.dec @@ -0,0 +1,50 @@ +################################################################### +# +#B0->Eta'D0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur 16 Feb 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay + +Decay MyB0B +1. D0 eta' PHSP; +Enddecay + +Decay MyB0 +1. anti-D0 eta' PHSP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; +Enddecay +# + +Decay D0 +1. K- pi+ PHSP; +Enddecay + +Decay anti-D0 +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0etapD0star_D0K3Pi_etapipigg.dec b/BaBar_2014/B0etapD0star_D0K3Pi_etapipigg.dec new file mode 100644 index 0000000..39e0268 --- /dev/null +++ b/BaBar_2014/B0etapD0star_D0K3Pi_etapipigg.dec @@ -0,0 +1,122 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ pi- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myetap SVS; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; + +Enddecay +# + +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +End + diff --git a/BaBar_2014/B0etapD0star_D0K3Pi_rho0g.dec b/BaBar_2014/B0etapD0star_D0K3Pi_rho0g.dec new file mode 100644 index 0000000..202c9c9 --- /dev/null +++ b/BaBar_2014/B0etapD0star_D0K3Pi_rho0g.dec @@ -0,0 +1,116 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --rho0 g, D0->K- pi+ pi- pi+ +# | +# -pi pi +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myetap SVS; +Enddecay + +Decay Myetap +1. rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End + diff --git a/BaBar_2014/B0etapD0star_D0KPiPi0_etapipigg.dec b/BaBar_2014/B0etapD0star_D0KPiPi0_etapipigg.dec new file mode 100644 index 0000000..94dd0c4 --- /dev/null +++ b/BaBar_2014/B0etapD0star_D0KPiPi0_etapipigg.dec @@ -0,0 +1,74 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ pi0 +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myetap SVS; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# +# + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/B0etapD0star_D0KPiPi0_rho0g.dec b/BaBar_2014/B0etapD0star_D0KPiPi0_rho0g.dec new file mode 100644 index 0000000..fbe22ab --- /dev/null +++ b/BaBar_2014/B0etapD0star_D0KPiPi0_rho0g.dec @@ -0,0 +1,70 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --rho0 g, D0->K- pi+ pi0 +# | +# -pi pi +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myetap SVS; +Enddecay + +Decay Myetap +1. rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# +# + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/B0etapD0star_D0KPi_etapipigg.dec b/BaBar_2014/B0etapD0star_D0KPi_etapipigg.dec new file mode 100644 index 0000000..d2cd4df --- /dev/null +++ b/BaBar_2014/B0etapD0star_D0KPi_etapipigg.dec @@ -0,0 +1,73 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --eta pi pi, D0->K- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myetap SVS; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay + +Decay Myeta +1. gamma gamma PHSP; + +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay +# + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0etapD0star_D0KPi_rho0g.dec b/BaBar_2014/B0etapD0star_D0KPi_rho0g.dec new file mode 100644 index 0000000..a3ca3ab --- /dev/null +++ b/BaBar_2014/B0etapD0star_D0KPi_rho0g.dec @@ -0,0 +1,68 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --rho0 g, D0->K- pi+ +# | +# -pi pi +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myetap SVS; +Enddecay + +Decay MyB0 +1. MyD*0B Myetap SVS; +Enddecay + +Decay Myetap +1. rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay +# + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End + diff --git a/BaBar_2014/B0etapD0staretapipigg.dec b/BaBar_2014/B0etapD0staretapipigg.dec new file mode 100644 index 0000000..d7f3756 --- /dev/null +++ b/BaBar_2014/B0etapD0staretapipigg.dec @@ -0,0 +1,60 @@ +################################################################### +# +#B0->Eta'D*0 Bbar -> X ## | +# --eta pi pi, D*0->D0pi0, D0->K- pi+ +# | +# -gamma gamma +# +# Author: A.Hicheur 16 Feb 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay + +Decay MyB0B +1. D*0 eta' SVS; +Enddecay + +Decay MyB0 +1. anti-D*0 eta' SVS; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + +Decay D*0 +1. D0 pi0 VSS; +Enddecay + +Decay anti-D*0 +1. anti-D0 pi0 VSS; +Enddecay +# + +Decay D0 +1. K- pi+ PHSP; +Enddecay + +Decay anti-D0 +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0omegaD0K3Pi.dec b/BaBar_2014/B0omegaD0K3Pi.dec new file mode 100644 index 0000000..b825adc --- /dev/null +++ b/BaBar_2014/B0omegaD0K3Pi.dec @@ -0,0 +1,98 @@ +################################################################### +# +#B0->omega D0 Bbar -> X ## | +# --pipipi0, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myomega omega +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. Myomega MyD0k3pi SVS; +Enddecay + +Decay MyB0 +1. Myomega MyD0Bk3pi SVS; +Enddecay + +Decay Myomega +1. pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/B0omegaD0KPi.dec b/BaBar_2014/B0omegaD0KPi.dec new file mode 100644 index 0000000..74a4369 --- /dev/null +++ b/BaBar_2014/B0omegaD0KPi.dec @@ -0,0 +1,54 @@ +################################################################### +# +#B0->omega D0 Bbar -> X ## | +# --pipipi0, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myomega omega +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. Myomega MyD0kpi SVS; +Enddecay + +Decay MyB0 +1. Myomega MyD0Bkpi SVS; +Enddecay + +Decay Myomega +1. pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0omegaD0KPiPi0.dec b/BaBar_2014/B0omegaD0KPiPi0.dec new file mode 100644 index 0000000..736e684 --- /dev/null +++ b/BaBar_2014/B0omegaD0KPiPi0.dec @@ -0,0 +1,55 @@ +################################################################### +# +#B0->omega D0 Bbar -> X ## | +# --pipipi0, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myomega omega +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. Myomega MyD0kpipi0 SVS; +Enddecay + +Decay MyB0 +1. Myomega MyD0Bkpipi0 SVS; +Enddecay + +Decay Myomega +1. pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0omegaD0star_D0K3Pi.dec b/BaBar_2014/B0omegaD0star_D0K3Pi.dec new file mode 100644 index 0000000..89d5074 --- /dev/null +++ b/BaBar_2014/B0omegaD0star_D0K3Pi.dec @@ -0,0 +1,110 @@ +################################################################### +# +#B0->omega D*0 Bbar -> X ## | +# --pipipi0, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Myomega omega +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1. MyD*0B Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay Myomega +1. pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/B0omegaD0star_D0KPi.dec b/BaBar_2014/B0omegaD0star_D0KPi.dec new file mode 100644 index 0000000..feca715 --- /dev/null +++ b/BaBar_2014/B0omegaD0star_D0KPi.dec @@ -0,0 +1,67 @@ +################################################################### +# +#B0->omega D*0 Bbar -> X ## | +# --pipipi0, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +Alias Myomega omega +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1. MyD*0B Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay Myomega +1. pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0omegaD0star_D0KPiPi0.dec b/BaBar_2014/B0omegaD0star_D0KPiPi0.dec new file mode 100644 index 0000000..42a74a4 --- /dev/null +++ b/BaBar_2014/B0omegaD0star_D0KPiPi0.dec @@ -0,0 +1,68 @@ +################################################################### +# +#B0->omega D*0 Bbar -> X ## | +# --pipipi0, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +Alias Myomega omega +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1. MyD*0B Myomega SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay Myomega +1. pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0pi0D0K3Pi.dec b/BaBar_2014/B0pi0D0K3Pi.dec new file mode 100644 index 0000000..4027e32 --- /dev/null +++ b/BaBar_2014/B0pi0D0K3Pi.dec @@ -0,0 +1,98 @@ +################################################################### +# +#B0->pi0 D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0k3pi pi0 PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bk3pi pi0 PHSP; +Enddecay + + +Decay pi0 +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/B0pi0D0KPi.dec b/BaBar_2014/B0pi0D0KPi.dec new file mode 100644 index 0000000..b8a446c --- /dev/null +++ b/BaBar_2014/B0pi0D0KPi.dec @@ -0,0 +1,53 @@ +################################################################### +# +#B0->pi0 D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpi pi0 PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpi pi0 PHSP; +Enddecay + + +Decay pi0 +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0pi0D0KPiPi0.dec b/BaBar_2014/B0pi0D0KPiPi0.dec new file mode 100644 index 0000000..1a57b83 --- /dev/null +++ b/BaBar_2014/B0pi0D0KPiPi0.dec @@ -0,0 +1,54 @@ +################################################################### +# +#B0->pi0 D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpipi0 pi0 PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpipi0 pi0 PHSP; +Enddecay + + +Decay pi0 +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0pi0D0star_D0K3Pi.dec b/BaBar_2014/B0pi0D0star_D0K3Pi.dec new file mode 100644 index 0000000..cd71cdc --- /dev/null +++ b/BaBar_2014/B0pi0D0star_D0K3Pi.dec @@ -0,0 +1,115 @@ +################################################################### +# +#B0->pi0 D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1. MyD*0B pi0 SVS; +Enddecay + + +Decay pi0 +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + +End diff --git a/BaBar_2014/B0pi0D0star_D0KPi.dec b/BaBar_2014/B0pi0D0star_D0KPi.dec new file mode 100644 index 0000000..51ffcca --- /dev/null +++ b/BaBar_2014/B0pi0D0star_D0KPi.dec @@ -0,0 +1,69 @@ +################################################################### +# +#B0->pi0 D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1. MyD*0B pi0 SVS; +Enddecay + + +Decay pi0 +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + + + +End diff --git a/BaBar_2014/B0pi0D0star_D0KPiPi0.dec b/BaBar_2014/B0pi0D0star_D0KPiPi0.dec new file mode 100644 index 0000000..092bb0d --- /dev/null +++ b/BaBar_2014/B0pi0D0star_D0KPiPi0.dec @@ -0,0 +1,70 @@ +################################################################### +# +#B0->pi0 D0 Bbar -> X ## | +# --gamma gamma, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 pi0 SVS; +Enddecay + +Decay MyB0 +1. MyD*0B pi0 SVS; +Enddecay + + +Decay pi0 +1. gamma gamma PHSP; +Enddecay +# + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + + + +End diff --git a/BaBar_2014/B0pipiD0K3Pi.dec b/BaBar_2014/B0pipiD0K3Pi.dec new file mode 100755 index 0000000..d1d0e85 --- /dev/null +++ b/BaBar_2014/B0pipiD0K3Pi.dec @@ -0,0 +1,93 @@ +################################################################### +# +# B0-> pi pi D0 Bbar -> X +# D0->K- pi+ pi- pi+ +# +# +# +# Author: V. Tisserand Oct 2002 +# tisserav@lapp.in2p3.fr +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +################################################################### +Alias MyB0B anti-B0 +Alias MyB0 B0 +################################################################### +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0k3pi pi+ pi- PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bk3pi pi- pi+ PHSP; +Enddecay + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/B0pipiD0KPi.dec b/BaBar_2014/B0pipiD0KPi.dec new file mode 100755 index 0000000..7cfe842 --- /dev/null +++ b/BaBar_2014/B0pipiD0KPi.dec @@ -0,0 +1,47 @@ +################################################################### +# +#B0->pipi D0 Bbar -> X +# D0->K- pi+ +# +# +# +# Author: V. Tisserand Oct 2002 +# tisserav@lapp.in2p3.fr +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +################################################################## +Alias MyB0B anti-B0 +Alias MyB0 B0 +################################################################## +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +################################################################## +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpi pi+ pi- PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpi pi- pi+ PHSP; +Enddecay + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0pipiD0KPiPi0.dec b/BaBar_2014/B0pipiD0KPiPi0.dec new file mode 100755 index 0000000..880acc4 --- /dev/null +++ b/BaBar_2014/B0pipiD0KPiPi0.dec @@ -0,0 +1,49 @@ +################################################################### +# +# B0-> pi pi D0 Bbar -> X +# D0->K- pi+ pi0 +# +# +# +# Author: V. Tisserand Oct 2002 +# tisserav@lapp.in2p3.fr +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +################################################################## +Alias MyB0B anti-B0 +Alias MyB0 B0 +################################################################## +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +################################################################## +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD0kpipi0 pi+ pi- PHSP; +Enddecay + +Decay MyB0 +1. MyD0Bkpipi0 pi- pi+ PHSP; +Enddecay + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0pipiD0star_D0K3Pi.dec b/BaBar_2014/B0pipiD0star_D0K3Pi.dec new file mode 100755 index 0000000..d3d0683 --- /dev/null +++ b/BaBar_2014/B0pipiD0star_D0K3Pi.dec @@ -0,0 +1,108 @@ +################################################################### +# +# B0-> pi pi D*0 Bbar -> X +# D0->K- pi+ pi- pi+ +# +# +# +# Author: V. Tisserand Oct 2002 +# tisserav@lapp.in2p3.fr +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +################################################################### +Alias MyB0B anti-B0 +Alias MyB0 B0 +################################################################### +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +################################################################### + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 pi+ pi- PHSP; +Enddecay + +Decay MyB0 +1. MyD*0B pi- pi+ PHSP; +Enddecay + + +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/B0pipiD0star_D0KPi.dec b/BaBar_2014/B0pipiD0star_D0KPi.dec new file mode 100755 index 0000000..30e5b9a --- /dev/null +++ b/BaBar_2014/B0pipiD0star_D0KPi.dec @@ -0,0 +1,62 @@ +################################################################### +# +#B0-> pi pi D*0 Bbar -> X +# D0->K- pi+ +# +# +# +# Author: V. Tisserand Oct 2002 +# tisserav@lapp.in2p3.fr +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 pi+ pi- PHSP; +Enddecay + +Decay MyB0 +1. MyD*0B pi- pi+ PHSP; +Enddecay + + +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0pipiD0star_D0KPiPi0.dec b/BaBar_2014/B0pipiD0star_D0KPiPi0.dec new file mode 100755 index 0000000..b646919 --- /dev/null +++ b/BaBar_2014/B0pipiD0star_D0KPiPi0.dec @@ -0,0 +1,63 @@ +################################################################### +# +#B0-> pi pi D*0 Bbar -> X +# D0->K- pi+ pi0 +# +# +# +# Author: V. Tisserand Oct 2002 +# tisserav@lapp.in2p3.fr +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +################################################################### +Alias MyB0B anti-B0 +Alias MyB0 B0 +################################################################### +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +################################################################### +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 pi+ pi- PHSP; +Enddecay + +Decay MyB0 +1. MyD*0B pi- pi+ PHSP; +Enddecay + + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0pm_hcK_X.dec b/BaBar_2014/B0pm_hcK_X.dec new file mode 100644 index 0000000..931e798 --- /dev/null +++ b/BaBar_2014/B0pm_hcK_X.dec @@ -0,0 +1,121 @@ +############################################################ +# # +# Decay: B0 -> h_c X, B0bar -> X # +# | # +# ->X # +# # +# + cc # +# + charged modes # +# # +# Author: E.Robutti, S.Tosi 18/06/01 # +############################################################ +# +Define beta 0.34 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyB0 B0 +Alias MyAnti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyEta_c eta_c +Alias MyH_c h_c +# +Decay Upsilon(4S) + 0.2500 MyB+ B- VSS; + 0.2500 MyB- B+ VSS; + 0.5000 B0 anti-B0 MyB0 MyAnti-B0 VSS_BMIX dm; +Enddecay +# +Decay MyB+ + 0.0006 MyH_c K+ SVS; + 0.0012 MyH_c K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 MyH_c K0 pi+ PHSP; + 0.0002 MyH_c K+ pi0 PHSP; + 0.0004 MyH_c K+ pi+ pi- PHSP; + 0.0002 MyH_c K+ pi0 pi0 PHSP; + 0.0002 MyH_c K0 pi+ pi0 PHSP; +Enddecay +# +Decay MyB- + 0.0006 MyH_c K- SVS; + 0.0012 MyH_c K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 MyH_c anti-K0 pi- PHSP; + 0.0002 MyH_c K- pi0 PHSP; + 0.0004 MyH_c K- pi+ pi- PHSP; + 0.0002 MyH_c K- pi0 pi0 PHSP; + 0.0002 MyH_c anti-K0 pi- pi0 PHSP; +Enddecay +# +Decay MyB0 + 0.0006 MyH_c K0 SVS; + 0.0012 MyH_c K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 MyH_c K- pi+ PHSP; + 0.0002 MyH_c K0 pi0 PHSP; + 0.0004 MyH_c K0 pi+ pi- PHSP; + 0.0002 MyH_c K0 pi0 pi0 PHSP; + 0.0002 MyH_c K- pi+ pi0 PHSP; +Enddecay +# +Decay MyAnti-B0 + 0.0006 MyH_c anti-K0 SVS; + 0.0012 MyH_c anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + 0.0004 MyH_c K- pi+ PHSP; + 0.0002 MyH_c anti-K0 pi0 PHSP; + 0.0004 MyH_c anti-K0 pi+ pi- PHSP; + 0.0002 MyH_c anti-K0 pi0 pi0 PHSP; + 0.0002 MyH_c K- pi+ pi0 PHSP; +Enddecay +# +# +Decay MyH_c + 0.1 K+ K- K+ K- PHSP; + 0.1 K+ K- pi0 PHSP; + 0.1 pi+ pi- K+ K- PHSP; + 0.1 pi+ pi- pi+ pi- PHSP; + 0.05 K_S0 K+ pi- PHSP; + 0.05 K_S0 K- pi+ PHSP; + 0.05 K_L0 K- pi+ PHSP; + 0.05 K_L0 K+ pi- PHSP; + 0.1 MyJ/psi pi+ pi- PHSP; + 0.1 MyJ/psi pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1 p+ anti-p- PHSP; + 0.1 MyEta_c gamma VSP_PWAVE; +Enddecay +# +Decay MyJ/psi + 0.5000 e+ e- PHOTOS VLL; + 0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyEta_c +0.0012 p+ anti-p- PHSP; +0.0071 phi phi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +0.0087 rho0 rho0 PHSP; +0.0173 rho+ rho- PHSP; +0.0120 pi+ pi- pi+ pi- PHSP; +0.0210 K+ K- K+ K- PHSP; +0.0200 K+ K- pi+ pi- PHSP; +0.0327 eta pi+ pi- PHSP; +0.0163 eta pi0 pi0 PHSP; +0.0273 eta' pi+ pi- PHSP; +0.0137 eta' pi0 pi0 PHSP; +0.0092 pi0 K+ K- PHSP; +0.0184 K+ anti-K0 pi- PHSP; +0.0184 K- K0 pi+ PHSP; +0.0092 K0 anti-K0 pi0 PHSP; +0.0043 K*+ K*- PHSP; +0.0042 K*0 anti-K*0 PHSP; +0.0100 K*0 K- pi+ PHSP; +0.0100 anti-K*0 K+ pi- PHSP; +Enddecay + +End + + + + + + + + + diff --git a/BaBar_2014/B0rho0D0K3Pi.dec b/BaBar_2014/B0rho0D0K3Pi.dec new file mode 100644 index 0000000..4e1792c --- /dev/null +++ b/BaBar_2014/B0rho0D0K3Pi.dec @@ -0,0 +1,93 @@ +################################################################### +# +#B0->rho0 D0 Bbar -> X ## | +# --pipi, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. rho0 MyD0k3pi SVS; +Enddecay + +Decay MyB0 +1. rho0 MyD0Bk3pi SVS; +Enddecay + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/B0rho0D0KPi.dec b/BaBar_2014/B0rho0D0KPi.dec new file mode 100644 index 0000000..018a0e3 --- /dev/null +++ b/BaBar_2014/B0rho0D0KPi.dec @@ -0,0 +1,49 @@ +################################################################### +# +#B0->rho0 D0 Bbar -> X ## | +# --pipi, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. rho0 MyD0kpi SVS; +Enddecay + +Decay MyB0 +1. rho0 MyD0Bkpi SVS; +Enddecay + + + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0rho0D0KPiPi0.dec b/BaBar_2014/B0rho0D0KPiPi0.dec new file mode 100644 index 0000000..058c157 --- /dev/null +++ b/BaBar_2014/B0rho0D0KPiPi0.dec @@ -0,0 +1,49 @@ +################################################################### +# +#B0->rho0 D0 Bbar -> X ## | +# --pipi, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. rho0 MyD0kpipi0 SVS; +Enddecay + +Decay MyB0 +1. rho0 MyD0Bkpipi0 SVS; +Enddecay + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0rho0D0star_D0K3Pi.dec b/BaBar_2014/B0rho0D0star_D0K3Pi.dec new file mode 100644 index 0000000..2def6ed --- /dev/null +++ b/BaBar_2014/B0rho0D0star_D0K3Pi.dec @@ -0,0 +1,108 @@ +################################################################### +# +#B0->rho0 D*0 Bbar -> X ## | +# --pipi, D0->K- pi+ pi- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0k3pi D0 +Alias MyD0Bk3pi anti-D0 +############################################################################ +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +############################################################################ + +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1. MyD*0B rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + + +Decay MyD*0 +0.619 MyD0k3pi pi0 VSS; +0.381 MyD0k3pi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bk3pi pi0 VSS; +0.381 MyD0Bk3pi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +Decay MyD0Bk3pi +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi+ pi- PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi+ pi- PHSP; +Enddecay + +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/B0rho0D0star_D0KPi.dec b/BaBar_2014/B0rho0D0star_D0KPi.dec new file mode 100644 index 0000000..3149b0e --- /dev/null +++ b/BaBar_2014/B0rho0D0star_D0KPi.dec @@ -0,0 +1,62 @@ +################################################################### +# +#B0->rho0 D*0 Bbar -> X ## | +# --pipi, D0->K- pi+ +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpi D0 +Alias MyD0Bkpi anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1. MyD*0B rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + + +Decay MyD*0 +0.619 MyD0kpi pi0 VSS; +0.381 MyD0kpi gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpi pi0 VSS; +0.381 MyD0Bkpi gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpi +1. K- pi+ PHSP; +Enddecay + +Decay MyD0Bkpi +1. K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/B0rho0D0star_D0KPiPi0.dec b/BaBar_2014/B0rho0D0star_D0KPiPi0.dec new file mode 100644 index 0000000..3f58ef0 --- /dev/null +++ b/BaBar_2014/B0rho0D0star_D0KPiPi0.dec @@ -0,0 +1,63 @@ +################################################################### +# +#B0->rho0 D*0 Bbar -> X ## | +# --pipi, D0->K- pi+ pi0 +# +# +# +# Author: A.Hicheur Sept 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +Define dm .464e12 + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +############################################################################ +Alias MyD*0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD0kpipi0 D0 +Alias MyD0Bkpipi0 anti-D0 +############################################################################ +#ChargeConj MyB0 MyB0B +# +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +Enddecay + +Decay MyB0B +1. MyD*0 rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + +Decay MyB0 +1. MyD*0B rho0 SVV_HELAMP 0.228 0 0.283 0 0.932 0; +Enddecay + + +Decay MyD*0 +0.619 MyD0kpipi0 pi0 VSS; +0.381 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay + +Decay MyD*0B +0.619 MyD0Bkpipi0 pi0 VSS; +0.381 MyD0Bkpipi0 gamma VSP_PWAVE; +Enddecay +# + + +Decay MyD0kpipi0 +1. K- pi+ pi0 D_DALITZ; +Enddecay + +Decay MyD0Bkpipi0 +1. K+ pi- pi0 D_DALITZ; +Enddecay + + +End diff --git a/BaBar_2014/B0toA0Ks_A0toJpsipi0_width45.dec b/BaBar_2014/B0toA0Ks_A0toJpsipi0_width45.dec new file mode 100644 index 0000000..6a30b56 --- /dev/null +++ b/BaBar_2014/B0toA0Ks_A0toJpsipi0_width45.dec @@ -0,0 +1,59 @@ +################################################################### +# B0 --> A0 Ks B- --> Generic xx # +# | | # +# | |--> pi+ pi- # +# | # +# |-- With a width of 45 MeV # +# |-->J/psi pi0 # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 4.430 0.045 +ChangeMassMin dummy00_1 3.2 +ChangeMassMax dummy00_1 4.8 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyA0 dummy00_1 +Alias MyJpsi J/psi +Alias Mypi0 pi0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyA0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyA0 MyK_S0 PHSP; +Enddecay +# +Decay MyA0 +1.000 MyJpsi Mypi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyJpsi +0.50 e+ e- PHOTOS VLL; +0.50 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toAchKch_AchtoJpsipich_width45.dec b/BaBar_2014/B0toAchKch_AchtoJpsipich_width45.dec new file mode 100644 index 0000000..a066996 --- /dev/null +++ b/BaBar_2014/B0toAchKch_AchtoJpsipich_width45.dec @@ -0,0 +1,65 @@ +################################################################### +# B0 --> Ach Kch B- --> Generic xx # +# | # +# |-- With a width of 45 MeV # +# |-->J/psi pi+ , J/psi pi- # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy10_1 4.430 0.045 +Particle anti-dummy10_1 4.430 0.045 +# +ChangeMassMin dummy10_1 3.2 +ChangeMassMax dummy10_1 4.8 +# +ChangeMassMin anti-dummy10_1 3.2 +ChangeMassMax anti-dummy10_1 4.8 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyA+ dummy10_1 +Alias MyA- anti-dummy10_1 +Alias MyJpsi J/psi +Alias Mypi0 pi0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.500 MyA+ K- PHSP; +0.500 MyA- K+ PHSP; +Enddecay +# +Decay Myanti-B0 +0.500 MyA+ K- PHSP; +0.500 MyA- K+ PHSP; +Enddecay +# +Decay MyA+ +1.000 MyJpsi pi+ PHSP; +Enddecay +# +Decay MyA- +1.000 MyJpsi pi- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD1Pi_D0toKPi.dec b/BaBar_2014/B0toD1Pi_D0toKPi.dec new file mode 100644 index 0000000..9fc9e26 --- /dev/null +++ b/BaBar_2014/B0toD1Pi_D0toKPi.dec @@ -0,0 +1,60 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D1(2420)*+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K- pi+ # +# # +# +CC # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_1- D_1- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_1+ D_1+ +Alias MyD*0 D*0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- pi+ SVS; +Enddecay +# +Decay MyB0B +1.0000 MyD_1+ pi- SVS; +Enddecay +# +Decay MyD_1- +1.0000 MyD*0B pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1+ +1.0000 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD1Pi_D0toKPiPi0.dec b/BaBar_2014/B0toD1Pi_D0toKPiPi0.dec new file mode 100644 index 0000000..4bae4dc --- /dev/null +++ b/BaBar_2014/B0toD1Pi_D0toKPiPi0.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D1(2420)+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K- pi+ pi0 # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_1- D_1- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_1+ D_1+ +Alias MyD*0 D*0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- pi+ SVS; +Enddecay +# +Decay MyB0B +1.0000 MyD_1+ pi- SVS; +Enddecay +# +Decay MyD_1- +1.0000 MyD*0B pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1+ +1.0000 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- pi0 D_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD1Pi_D0toKPiPiPi.dec b/BaBar_2014/B0toD1Pi_D0toKPiPiPi.dec new file mode 100644 index 0000000..cbaed19 --- /dev/null +++ b/BaBar_2014/B0toD1Pi_D0toKPiPiPi.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D1(2420)*+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K- pi+ pi- pi+# +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_1- D_1- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_1+ D_1+ +Alias MyD*0 D*0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- pi+ SVS; +Enddecay +# +Decay MyB0B +1.0000 MyD_1+ pi- SVS; +Enddecay +# +Decay MyD_1- +1.0000 MyD*0B pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1+ +1.0000 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD1Pi_D0toKsPiPi.dec b/BaBar_2014/B0toD1Pi_D0toKsPiPi.dec new file mode 100644 index 0000000..057e2df --- /dev/null +++ b/BaBar_2014/B0toD1Pi_D0toKsPiPi.dec @@ -0,0 +1,71 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D1(2420)*+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K_S0 pi+ pi- # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_1- D_1- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_1+ D_1+ +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyK0 K0 +Alias MyK0B anti-K0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_1- pi+ SVS; +Enddecay +# +Decay MyB0B +1.0000 MyD_1+ pi- SVS; +Enddecay +# +Decay MyD_1- +1.0000 MyD*0B pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_1+ +1.0000 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 MyK0B pi+ pi- D_DALITZ; +Enddecay +# +Decay MyD0B +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay + +Decay MyK0B +1.0000 K_S0 PHSP; +Enddecay + +Decay MyK0 +1.0000 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPi.dec b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPi.dec new file mode 100644 index 0000000..6c7d553 --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPi.dec @@ -0,0 +1,50 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD0B pi- TSS; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD0 pi+ TSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPiPi0.dec b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPiPi0.dec new file mode 100644 index 0000000..afa7511 --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPiPi0.dec @@ -0,0 +1,50 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |-> D0 pi- # +# |-> K- pi+ pi0 # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD0B pi- TSS; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD0 pi+ TSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- pi0 D_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPiPiPi.dec b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPiPiPi.dec new file mode 100644 index 0000000..00963df --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKPiPiPi.dec @@ -0,0 +1,50 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ pi- pi+# +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD0B pi- TSS; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD0 pi+ TSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKsPiPi.dec b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKsPiPi.dec new file mode 100644 index 0000000..b8d0db5 --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoD0Pi_D0toKsPiPi.dec @@ -0,0 +1,60 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |-> D0 pi0 # +# |-> K_S0 pi+ pi- # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD0 D0 +Alias MyK0 K0 +Alias MyK0B anti-K0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD0B pi- TSS; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD0 pi+ TSS; +Enddecay +# +Decay MyD0 +1.0000 MyK0B pi+ pi- D_DALITZ; +Enddecay +# +Decay MyD0B +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay + +Decay MyK0B +1.0000 K_S0 PHSP; +Enddecay + +Decay MyK0 +1.0000 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPi.dec b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPi.dec new file mode 100644 index 0000000..8601416 --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPi.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K- pi+ # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD*0B pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPiPi0.dec b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPiPi0.dec new file mode 100644 index 0000000..d7df96a --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPiPi0.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K- pi+ pi0 # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD*0B pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- pi0 D_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPiPiPi.dec b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPiPiPi.dec new file mode 100644 index 0000000..fed8f2a --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKPiPiPi.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K- pi+ pi- pi+# +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD*0B pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +1.0000 K+ pi- pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKsPiPi.dec b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKsPiPi.dec new file mode 100644 index 0000000..33f75df --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_D2StartoDstar0Pi_D0toKsPiPi.dec @@ -0,0 +1,71 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 pi0 # +# |-> K_S0 pi+ pi- # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 12.22.02 # +####################################################### +# +Alias MyB0 B0 +Alias MyD_2*- D_2*- +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyB0B anti-B0 +Alias MyD_2*+ D_2*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyK0 K0 +Alias MyK0B anti-K0 +# +Decay Upsilon(4S) +0.50000 B0 MyB0B VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyB0B +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyD*0B pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 MyK0B pi+ pi- D_DALITZ; +Enddecay +# +Decay MyD0B +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay + +Decay MyK0B +1.0000 K_S0 PHSP; +Enddecay + +Decay MyK0 +1.0000 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPi.dec b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPi.dec new file mode 100644 index 0000000..4a47155 --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPi.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 gamma # +# |-> K- pi+ # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 04.15.03 # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyD_2*- D_2*- +Alias MyD_2*+ D_2*+ +Alias MyAntiD*0 anti-D*0 +Alias MyD*0 D*0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyAntiD*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyAntiD*0 +1.0000 MyAntiD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyAntiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPiPi0.dec b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPiPi0.dec new file mode 100644 index 0000000..e9e77b1 --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPiPi0.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 gamma # +# |-> K- pi+ pi0 # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 04.15.03 # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyD_2*- D_2*- +Alias MyD_2*+ D_2*+ +Alias MyAntiD*0 anti-D*0 +Alias MyD*0 D*0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyAntiD*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyAntiD*0 +1.0000 MyAntiD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay MyAntiD0 +1.0000 K+ pi- pi0 D_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPiPiPi.dec b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPiPiPi.dec new file mode 100644 index 0000000..74ccd57 --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKPiPiPi.dec @@ -0,0 +1,61 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 gamma # +# |-> K- pi+ pi- pi+# +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 04.15.03 # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyD_2*- D_2*- +Alias MyD_2*+ D_2*+ +Alias MyAntiD*0 anti-D*0 +Alias MyD*0 D*0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyAntiD*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyAntiD*0 +1.0000 MyAntiD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi- pi+ PHSP; +Enddecay +# +Decay MyAntiD0 +1.0000 K+ pi- pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKsPiPi.dec b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKsPiPi.dec new file mode 100644 index 0000000..2407dac --- /dev/null +++ b/BaBar_2014/B0toD2StarPi_Dstar0toD0Gamma_D0toKsPiPi.dec @@ -0,0 +1,71 @@ +####################################################### +# # +# Decay: B0 -> X Bbar0->D2(2460)*+ pi- # +# |->D*0 pi+ # +# |-> D0 gamma # +# |-> Ks pi+ pi- # +# # +# +CC # +# # +# onno@slac.stanford.edu # +# 04.15.03 # +####################################################### +# +Alias MyB0 B0 +Alias MyAntiB0 anti-B0 +Alias MyD_2*- D_2*- +Alias MyD_2*+ D_2*+ +Alias MyAntiD*0 anti-D*0 +Alias MyD*0 D*0 +Alias MyAntiD0 anti-D0 +Alias MyD0 D0 +Alias MyK0 K0 +Alias MyAntiK0 anti-K0 +# +Decay Upsilon(4S) +0.50000 B0 MyAntiB0 VSS_BMIX dm; +0.50000 anti-B0 MyB0 VSS_BMIX dm; +Enddecay +# +Decay MyB0 +1.0000 MyD_2*- pi+ STS; +Enddecay +# +Decay MyAntiB0 +1.0000 MyD_2*+ pi- STS; +Enddecay +# +Decay MyD_2*- +1.0000 MyAntiD*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +1.0000 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyAntiD*0 +1.0000 MyAntiD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 MyAntiK0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyAntiD0 +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay + +Decay MyAntiK0 +1.0000 K_S0 PHSP; +Enddecay + +Decay MyK0 +1.0000 K_S0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toJPsiK1.dec b/BaBar_2014/B0toJPsiK1.dec new file mode 100644 index 0000000..de1ce24 --- /dev/null +++ b/BaBar_2014/B0toJPsiK1.dec @@ -0,0 +1,48 @@ +################################################################### +# B0 --> JPsi K1(1273) anti-B0 --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) # +# # +# with K1 -> K+ rho- # +# + charge conjugate # +# # +# # +# Author: Frank Winklmeier Feb 09, 2004 # +# # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyK_10 K_10 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyK_10 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyK_10 PHSP; +Enddecay +# +Decay MyK_10 +0.500 K+ rho- PHSP; +0.500 K- rho+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKmpip.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKmpip.dec new file mode 100644 index 0000000..31366a1 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKmpip.dec @@ -0,0 +1,64 @@ +################################################################### +# anti-B0 --> J/psi K_S0 B0 --> Generic # +# | # +# | # +# +-->K*0 K_S0 # +# | # +# | # +# +--> K- pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKppim.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKppim.dec new file mode 100644 index 0000000..0bda646 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKppim.dec @@ -0,0 +1,64 @@ +################################################################### +# anti-B0 --> J/psi K_S0 B0 --> Generic # +# | # +# | # +# +-->K*0 K_S0 # +# | # +# | # +# +--> K+ pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec new file mode 100644 index 0000000..04dd8d9 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec @@ -0,0 +1,64 @@ +################################################################### +# anti-B0 --> J/psi K_S0 B0 --> Generic # +# | # +# | # +# +-->K*0 K_S0 # +# | # +# | # +# +--> K_S0 pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstarK_Ks0topippim.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstarK_Ks0topippim.dec new file mode 100644 index 0000000..b9fae86 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstarK_Ks0topippim.dec @@ -0,0 +1,92 @@ +################################################################### +# B0 --> J/psi K_S0 B+ --> Generic # +# | | # +# | +--> pi+ pi- # +# | # +# 30% +-->K*+ K- # +# | | # +# | +--> K+ pi0 (50%) # +# | +--> K_S0 pi+ (50%) # +# | | # +# | +--> pi+ pi- # +# | # +# 30% +-->K*- K+ # +# | | # +# | +--> K- pi0 (50%) # +# | +--> K_S0 pi- (50%) # +# | | # +# | +--> pi+ pi- # +# | # +# 40% +-->K*0 K_S0 # +# | | # +# | +--> pi+ pi- # +# | # +# +--> K+ pi- (30%) # +# +--> K- pi+ (30%) # +# +--> K_S0 pi0 (40%) # +# | # +# +--> pi+ pi- # +# # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay MyJpsi +0.300 MyK*+ K- PHSP; +0.300 MyK*- K+ PHSP; +0.400 MyK*0 MyK_S0 PHSP; +Enddecay +# +Decay MyK*+ +0.500 K+ pi0 PHSP; +0.500 MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +0.500 K- pi0 PHSP; +0.500 MyK_S0 pi- PHSP; +Enddecay +# +Decay MyK*0 +0.400 MyK_S0 pi0 PHSP; +0.300 K+ pi- PHSP; +0.300 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstarmKp_KstarmtoKmpi0.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstarmKp_KstarmtoKmpi0.dec new file mode 100644 index 0000000..1186dce --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstarmKp_KstarmtoKmpi0.dec @@ -0,0 +1,63 @@ +################################################################### +# anti-B0 --> J/psi K_S0 B0 --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K- pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstarmKp_KstarmtoKs0pim.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstarmKp_KstarmtoKs0pim.dec new file mode 100644 index 0000000..e4953ac --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstarmKp_KstarmtoKs0pim.dec @@ -0,0 +1,63 @@ +################################################################### +# anti-B0 --> J/psi K_S0 B0 --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K_S0 pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstarpKm_KstarptoKppi0.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstarpKm_KstarptoKppi0.dec new file mode 100644 index 0000000..81bf2c6 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstarpKm_KstarptoKppi0.dec @@ -0,0 +1,63 @@ +################################################################### +# anti-B0 --> J/psi K_S0 B0 --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K+ pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoKstarpKm_KstarptoKs0pip.dec b/BaBar_2014/B0toJpsiKs0_JpsitoKstarpKm_KstarptoKs0pip.dec new file mode 100644 index 0000000..a3d6925 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoKstarpKm_KstarptoKs0pip.dec @@ -0,0 +1,63 @@ +################################################################### +# anti-B0 --> J/psi K_S0 B0 --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K_S0 pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoRho0Pi0_Ks0topippim.dec b/BaBar_2014/B0toJpsiKs0_JpsitoRho0Pi0_Ks0topippim.dec new file mode 100644 index 0000000..9b83c43 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoRho0Pi0_Ks0topippim.dec @@ -0,0 +1,53 @@ +################################################################### +#anti-B0 --> J/psi K_S0 B0 --> Generic # +# | | # +# | +---->pi+ pi- # +# +-->rho0 pi0 # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Aidong Chen Jan 8, 2004 # +# Adjust the mass to 3.782 GeV # +# # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoRho0pip_Ks0topippim.dec b/BaBar_2014/B0toJpsiKs0_JpsitoRho0pip_Ks0topippim.dec new file mode 100644 index 0000000..7b43e32 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoRho0pip_Ks0topippim.dec @@ -0,0 +1,55 @@ +################################################################### +#anti-B0 --> J/psi K_S0 B0 --> Generic # +# | | # +# | +---->pi+ pi- # +# +-->rho- pi+ # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 rho- pi+ PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 rho+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoRhoPi_Ks0topippim.dec b/BaBar_2014/B0toJpsiKs0_JpsitoRhoPi_Ks0topippim.dec new file mode 100644 index 0000000..45487cd --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoRhoPi_Ks0topippim.dec @@ -0,0 +1,50 @@ +################################################################### +#anti-B0 --> J/psi K_S0 B0 --> Generic # +# | | # +# | +---->pi+ pi- # +# +-->rho- pi+ # +# +-->rho+ pi- # +# +-->rho0 pi0 # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +0.328 rho0 pi0 PHSP; +0.336 rho+ pi- PHSP; +0.336 rho- pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toJpsiKs0_JpsitoRhoppim_Ks0topippim.dec b/BaBar_2014/B0toJpsiKs0_JpsitoRhoppim_Ks0topippim.dec new file mode 100644 index 0000000..7548051 --- /dev/null +++ b/BaBar_2014/B0toJpsiKs0_JpsitoRhoppim_Ks0topippim.dec @@ -0,0 +1,51 @@ +################################################################### +#anti-B0 --> J/psi K_S0 B0 --> Generic # +# | | # +# | +---->pi+ pi- # +# +-->rho+ pi- # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyJpsi +1.000 rho+ pi- PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 rho- pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyJpsi MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-Jpsi MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toLamPD.dec b/BaBar_2014/B0toLamPD.dec new file mode 100644 index 0000000..205eaf3 --- /dev/null +++ b/BaBar_2014/B0toLamPD.dec @@ -0,0 +1,53 @@ +############################################################################### +# # +# continuum production: +# +# B0->anti Lambda D- p (AKA) pentaquark state +# +# All particles are decayed isotropically # +# # +# Valerie Halyo Jan 1 04 +# # +############################################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias MyD- D- +Alias MyD+ D+ + +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 MyB0B VSS_BMIX dm; +Enddecay +## +Decay MyB0 + 1. myanti-Lambda0 MyD- p+ PHSP; +Enddecay +## +Decay MyB0B + 1. myLambda0 MyD+ anti-p- PHSP; +Enddecay +## +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +Decay MyD- + 1. K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ + 1. K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKmpip.dec b/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKmpip.dec new file mode 100644 index 0000000..f153b03 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKmpip.dec @@ -0,0 +1,65 @@ +################################################################### +# anti-B0 --> x3872 K_S0 B0 --> Generic # +# | # +# | # +# +-->K*0 K_S0 # +# | # +# | # +# +--> K- pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKppim.dec b/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKppim.dec new file mode 100644 index 0000000..bf45ac9 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKppim.dec @@ -0,0 +1,65 @@ +################################################################### +# anti-B0 --> x3872 K_S0 B0 --> Generic # +# | # +# | # +# +-->K*0 K_S0 # +# | # +# | # +# +--> K+ pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKs0pi0.dec b/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKs0pi0.dec new file mode 100644 index 0000000..0ea77b4 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoKstar0Ks0_Kstar0toKs0pi0.dec @@ -0,0 +1,60 @@ +################################################################### +# anti-B0 --> x3872 K_S0 B0 --> Generic # +# | # +# | # +# +-->K*0 K_S0 # +# | # +# | # +# +--> K_S0 pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoKstarmKp_KstarmtoKmpi0.dec b/BaBar_2014/B0toXKs0_XtoKstarmKp_KstarmtoKmpi0.dec new file mode 100644 index 0000000..87c1755 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoKstarmKp_KstarmtoKmpi0.dec @@ -0,0 +1,64 @@ +################################################################### +# anti-B0 --> x3872 K_S0 B0 --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K- pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoKstarmKp_KstarmtoKs0pim.dec b/BaBar_2014/B0toXKs0_XtoKstarmKp_KstarmtoKs0pim.dec new file mode 100644 index 0000000..cdb3fb8 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoKstarmKp_KstarmtoKs0pim.dec @@ -0,0 +1,64 @@ +################################################################### +# anti-B0 --> x3872 K_S0 B0 --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K_S0 pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoKstarpKm_KstarptoKppi0.dec b/BaBar_2014/B0toXKs0_XtoKstarpKm_KstarptoKppi0.dec new file mode 100644 index 0000000..15fe3ca --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoKstarpKm_KstarptoKppi0.dec @@ -0,0 +1,64 @@ +################################################################### +# anti-B0 --> x3872 K_S0 B0 --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K+ pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoKstarpKm_KstarptoKs0pip.dec b/BaBar_2014/B0toXKs0_XtoKstarpKm_KstarptoKs0pip.dec new file mode 100644 index 0000000..104d602 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoKstarpKm_KstarptoKs0pip.dec @@ -0,0 +1,64 @@ +################################################################### +# anti-B0 --> x3872 K_S0 B0 --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K_S0 pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX K_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoRho0Pi0_Ks0topippim.dec b/BaBar_2014/B0toXKs0_XtoRho0Pi0_Ks0topippim.dec new file mode 100644 index 0000000..3df93f7 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoRho0Pi0_Ks0topippim.dec @@ -0,0 +1,60 @@ +################################################################### +#anti-B0 --> x3872 K_S0 B0 --> Generic # +# | | # +# | +---->pi+ pi- # +# +-->rho0 pi0 # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Aidong Chen Jan 8, 2004 # +# Adjust the mass to 3.782 GeV # +# # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoRho0pip_Ks0topippim.dec b/BaBar_2014/B0toXKs0_XtoRho0pip_Ks0topippim.dec new file mode 100644 index 0000000..2f331d8 --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoRho0pip_Ks0topippim.dec @@ -0,0 +1,52 @@ +################################################################### +#anti-B0 --> x3872 K_S0 B0 --> Generic # +# | | # +# | +---->pi+ pi- # +# +-->rho- pi+ # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 rho- pi+ PHSP; +Enddecay +# +Decay Myanti-X +1.000 rho+ pi- PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs0_XtoRhoppim_Ks0topippim.dec b/BaBar_2014/B0toXKs0_XtoRhoppim_Ks0topippim.dec new file mode 100644 index 0000000..b07f0dd --- /dev/null +++ b/BaBar_2014/B0toXKs0_XtoRhoppim_Ks0topippim.dec @@ -0,0 +1,52 @@ +################################################################### +#anti-B0 --> x3872 K_S0 B0 --> Generic # +# | | # +# | +---->pi+ pi- # +# +-->rho+ pi- # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyX +1.000 rho+ pi- PHSP; +Enddecay +# +Decay Myanti-X +1.000 rho- pi+ PHSP; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 Myanti-X MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs_XtoJpsiPi0Pi0.dec b/BaBar_2014/B0toXKs_XtoJpsiPi0Pi0.dec new file mode 100644 index 0000000..0fcdc33 --- /dev/null +++ b/BaBar_2014/B0toXKs_XtoJpsiPi0Pi0.dec @@ -0,0 +1,53 @@ +################################################################### +# B0 --> X3872 K0 B0 --> Generic # +# | # +# | # +# |-->jpsi(ee,mumu) pi0 pi0 # +# # +# # +# + charge conjugate # +# # +# # +# Author: Frank Winklmeier, 23 Feb 2004 # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle + +Particle dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias MyantiB0 anti-B0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 MyantiB0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyJpsi pi0 pi0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyantiB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs_XtoJpsiRho0.dec b/BaBar_2014/B0toXKs_XtoJpsiRho0.dec new file mode 100644 index 0000000..7851e9c --- /dev/null +++ b/BaBar_2014/B0toXKs_XtoJpsiRho0.dec @@ -0,0 +1,55 @@ +################################################################### +# B0 --> X3872 K0 B0 --> Generic # +# | # +# | # +# |-->jpsi(ee,mumu) rho # +# | # +# |--> pi+ pi- # +# # +# # +# + charge conjugate # +# # +# # +# Author: Frank Winklmeier, 23 Feb 2004 # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle + +Particle dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias MyantiB0 anti-B0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 MyantiB0 B0 VSS; +Enddecay +# +Decay MyX +1.000 MyJpsi rho0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyantiB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXKs_XtoJpsiRho0_Rho0toPi0Pi0.dec b/BaBar_2014/B0toXKs_XtoJpsiRho0_Rho0toPi0Pi0.dec new file mode 100644 index 0000000..67783d3 --- /dev/null +++ b/BaBar_2014/B0toXKs_XtoJpsiRho0_Rho0toPi0Pi0.dec @@ -0,0 +1,56 @@ +################################################################### +# B0 --> X3872 Ks B0 --> Generic xx # +# | # +# +-->jpsi(ee,mumu) rho=> pi0pi0, NOTE this is forbidden # +# # +# + charge conjugate # +# # +# # +# Author: Walter Toki Feb. 23, 2004 # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.872 0.0 +Alias MyB0 B0 +Alias MyantiB0 anti-B0 +Alias MyX dummy00_1 +Alias MyK_S0 K_S0 +Alias MyJpsi J/psi +Alias Myrho rho0 +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 MyantiB0 B0 VSS; +Enddecay +# +# +Decay Myrho +1.000 pi0 pi0 PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi Myrho PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyantiB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/B0toXpKm_XptoJpsiRhop.dec b/BaBar_2014/B0toXpKm_XptoJpsiRhop.dec new file mode 100644 index 0000000..eacc4d3 --- /dev/null +++ b/BaBar_2014/B0toXpKm_XptoJpsiRhop.dec @@ -0,0 +1,53 @@ +################################################################### +# B0 --> X3872 K- B0 --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) rho+ # +# # +# + charge conjugate # +# # +# # +# Author: Walter Toki Sept 8, 2003 # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle +Particle B_c+ 3.872 0.0 +Particle B_c- 3.872 0.0 +Alias MyB0 B0 +Alias MyantiB0 anti-B0 +Alias MyX+ B_c+ +Alias MyX- B_c- +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.500 MyB0 anti-B0 VSS; +0.500 MyantiB0 B0 VSS; +Enddecay +# +Decay MyX+ +1.000 MyJpsi rho+ PHSP; +Enddecay +# +Decay MyX- +1.000 MyJpsi rho- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB0 +1.000 MyX- K+ PHSP; +Enddecay +# +Decay MyantiB0 +1.000 MyX+ K- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toY3915Ks_Y3915toJPsiOmega.dec b/BaBar_2014/B0toY3915Ks_Y3915toJPsiOmega.dec new file mode 100644 index 0000000..a8f4fcf --- /dev/null +++ b/BaBar_2014/B0toY3915Ks_Y3915toJPsiOmega.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> Y3915 K+ B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.915 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toY3915Ks_Y3915toJPsiOmega_wid_20MeV.dec b/BaBar_2014/B0toY3915Ks_Y3915toJPsiOmega_wid_20MeV.dec new file mode 100644 index 0000000..5c80c84 --- /dev/null +++ b/BaBar_2014/B0toY3915Ks_Y3915toJPsiOmega_wid_20MeV.dec @@ -0,0 +1,59 @@ +################################################################### +# B0 --> Y3915 Ks B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# | the width of Y(3915) is 20 MeV # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.915 0.02 +ChangeMassMin dummy00_1 3.6 +ChangeMassMax dummy00_1 4.3 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toY3925Ks_Y3925toJPsiOmega.dec b/BaBar_2014/B0toY3925Ks_Y3925toJPsiOmega.dec new file mode 100644 index 0000000..df619f8 --- /dev/null +++ b/BaBar_2014/B0toY3925Ks_Y3925toJPsiOmega.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> Y3925 K+ B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.925 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toY3925Ks_Y3925toJPsiOmega_wid_30MeV.dec b/BaBar_2014/B0toY3925Ks_Y3925toJPsiOmega_wid_30MeV.dec new file mode 100644 index 0000000..f5c64d4 --- /dev/null +++ b/BaBar_2014/B0toY3925Ks_Y3925toJPsiOmega_wid_30MeV.dec @@ -0,0 +1,59 @@ +################################################################### +# B0 --> Y3925 Ks B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# | the width of Y(3925) is 30 MeV # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.925 0.03 +ChangeMassMin dummy00_1 3.6 +ChangeMassMax dummy00_1 4.3 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyX MyK_S0 PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toZ0Ks_Z0toPsi2Spi0_width45.dec b/BaBar_2014/B0toZ0Ks_Z0toPsi2Spi0_width45.dec new file mode 100644 index 0000000..1534c2e --- /dev/null +++ b/BaBar_2014/B0toZ0Ks_Z0toPsi2Spi0_width45.dec @@ -0,0 +1,68 @@ +################################################################### +# B0 --> Z0 Ks B- --> Generic xx # +# | | # +# | |--> pi+ pi- # +# | # +# |-- With a width of 45 MeV # +# |-->psi(2S) pi0 # +# | # +# |--> e+e-, mu+mu-, Jpsi pi+ pi- # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 4.430 0.045 +ChangeMassMin dummy00_1 3.8 +ChangeMassMax dummy00_1 4.8 +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyZ0 dummy00_1 +Alias Mypsi2S psi(2S) +Alias Mypi0 pi0 +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +1.000 MyZ0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.000 MyZ0 MyK_S0 PHSP; +Enddecay +# +Decay MyZ0 +1.000 Mypsi2S Mypi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mypsi2S +0.700 MyJpsi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- VLL; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/B0toZchKch_ZchtoPsi2Spich_width45.dec b/BaBar_2014/B0toZchKch_ZchtoPsi2Spich_width45.dec new file mode 100644 index 0000000..56590e5 --- /dev/null +++ b/BaBar_2014/B0toZchKch_ZchtoPsi2Spich_width45.dec @@ -0,0 +1,74 @@ +################################################################### +# B0 --> Zch Kch B- --> Generic xx # +# | # +# |-- With a width of 45 MeV # +# |-->psi(2S) pi+ , psi(2S) pi- # +# | # +# |--> e+e-, mu+mu-, Jpsi pi+ pi- # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy10_1 4.430 0.045 +Particle anti-dummy10_1 4.430 0.045 +# +ChangeMassMin dummy10_1 3.8 +ChangeMassMax dummy10_1 4.8 +# +ChangeMassMin anti-dummy10_1 3.8 +ChangeMassMax anti-dummy10_1 4.8 + +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyZ+ dummy10_1 +Alias MyZ- anti-dummy10_1 +Alias Mypsi2S psi(2S) +Alias Mypi0 pi0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB0 anti-B0 VSS; +0.5000 Myanti-B0 B0 VSS; +Enddecay +# +Decay MyB0 +0.500 MyZ+ K- PHSP; +0.500 MyZ- K+ PHSP; +Enddecay +# +Decay Myanti-B0 +0.500 MyZ+ K- PHSP; +0.500 MyZ- K+ PHSP; +Enddecay +# +Decay MyZ+ +1.000 Mypsi2S pi+ PHSP; +Enddecay +# +Decay MyZ- +1.000 Mypsi2S pi- PHSP; +Enddecay +# +Decay Mypsi2S +0.700 MyJpsi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- VLL; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/BB_BrecoCocktail_Kstargamma.dec b/BaBar_2014/BB_BrecoCocktail_Kstargamma.dec new file mode 100644 index 0000000..a1583ab --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_Kstargamma.dec @@ -0,0 +1,469 @@ +## +## BB_BrecoCocktail_Kstargamma.dec +## +## +## one side B->K* gamma , other side Breco cocktail for B0/+ mesons +## +## (from B+B-_Kstargamma.dec, B0B0bar_Kstargamma.dec and +## BrecoCocktail [adjusted]) +## +## Author: Clare Brown +## +###################################################################### +# +# +# K* gamma side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# K* gamma side +# +Decay myantiB0 +1.0000 anti-K*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB0 +1.0000 K*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# +Decay myB- +1.0000 K*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB+ +1.0000 K*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# +# +# Reco side +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/BB_BrecoCocktail_XsudgammaExp465.dec b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp465.dec new file mode 100644 index 0000000..c1059a8 --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp465.dec @@ -0,0 +1,521 @@ +## +## BB_BrecoCocktail_XsudgammaExp465.dec +## +## +## one side B->Xs gamma, other side Breco cocktail for B0/+ mesons +## +## (from BrecoCocktail [adjusted] and B+B-_XsugammaExp465.dec and +## B0B0bar_XsdgammaExp465.dec, using: +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.)) +# +## +## Author: Clare Brown +## +###################################################################### +# +# +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + + +# Xs gamma side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# signal side +# +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.27885 4.65 4.65 -0.52 0.9 0.0841 100 80; +Enddecay +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.27885 4.65 4.65 -0.52 0.9 0.0841 100 80; +Enddecay +# +# +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.27885 4.65 4.65 -0.52 0.9 0.0841 100 80; +Enddecay +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.27885 4.65 4.65 -0.52 0.9 0.0841 100 80; +Enddecay +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_XsudgammaExp465_JetSet02.dec b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp465_JetSet02.dec new file mode 100644 index 0000000..0a1667c --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp465_JetSet02.dec @@ -0,0 +1,524 @@ +## +## BB_BrecoCocktail_XsudgammaExp465_JetSet02.dec +## +## +## one side B->Xs gamma, other side Breco cocktail for B0/+ mesons +## +## (from BrecoCocktail [adjusted] and B+B-_Xsgamma_Kagan99_mb465_JetSet02.dec +## and B0B0B_Xsgamma_Kagan99_mb465_JetSet02.dec, using: +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.)) +# +## +## Author: Clare Brown +## +###################################################################### +# +# +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + + +# Xs gamma side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# signal side +# +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay +# +# +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_XsudgammaExp480.dec b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp480.dec new file mode 100644 index 0000000..6d9031f --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp480.dec @@ -0,0 +1,521 @@ +## +## BB_BrecoCocktail_XsudgammaExp480.dec +## +## +## one side B->Xs gamma, other side Breco cocktail for B0/+ mesons +## +## (from BrecoCocktail [adjusted] and B+B-_XsugammaExp480.dec and +## B0B0bar_XsdgammaExp480.dec, using: +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.)) +# +## +## Author: Clare Brown +## +###################################################################### +# +# +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + + +# Xs gamma side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# signal side +# +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay +# +# +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_XsudgammaExp480_JetSet02.dec b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp480_JetSet02.dec new file mode 100644 index 0000000..73428f3 --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp480_JetSet02.dec @@ -0,0 +1,524 @@ +## +## BB_BrecoCocktail_XsudgammaExp480_JetSet02.dec +## +## +## one side B->Xs gamma, other side Breco cocktail for B0/+ mesons +## +## (from BrecoCocktail [adjusted] and B+B-_Xsgamma_Kagan99_mb480_JetSet02.dec +## and B0B0B_Xsgamma_Kagan99_mb480_JetSet02.dec, using: +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.)) +# +## +## Author: Clare Brown +## +###################################################################### +# +# +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + + +# Xs gamma side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# signal side +# +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay +# +# +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_XsudgammaExp495.dec b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp495.dec new file mode 100644 index 0000000..7d62e41 --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp495.dec @@ -0,0 +1,521 @@ +## +## BB_BrecoCocktail_XsudgammaExp495.dec +## +## +## one side B->Xs gamma, other side Breco cocktail for B0/+ mesons +## +## (from BrecoCocktail [adjusted] and B+B-_XsugammaExp495.dec and +## B0B0bar_XsdgammaExp495.dec, using: +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.)) +# +## +## Author: Clare Brown +## +###################################################################### +# +# +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + + +# Xs gamma side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# signal side +# +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.27885 4.95 4.95 -0.14 0.9 0.0841 100 80; +Enddecay +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.27885 4.95 4.95 -0.14 0.9 0.0841 100 80; +Enddecay +# +# +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.27885 4.95 4.95 -0.14 0.9 0.0841 100 80; +Enddecay +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.27885 4.95 4.95 -0.14 0.9 0.0841 100 80; +Enddecay +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_XsudgammaExp495_JetSet02.dec b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp495_JetSet02.dec new file mode 100644 index 0000000..ca83539 --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_XsudgammaExp495_JetSet02.dec @@ -0,0 +1,525 @@ +## +## BB_BrecoCocktail_XsudgammaExp495_JetSet02.dec +## +## +## one side B->Xs gamma, other side Breco cocktail for B0/+ mesons +## +## (from BrecoCocktail [adjusted] and B+B-_Xsgamma_Kagan99_mb495_JetSet02.dec +## and B0B0B_Xsgamma_Kagan99_mb495_JetSet02.dec, using: +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.)) +# +## +## Author: Clare Brown +## +###################################################################### +# +# +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +# Xsd meson (sbar-d system, introduced for b->s gamma decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + + +# Xs gamma side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# signal side +# +Decay myB0 +1.00000 Xsd gamma BTOXSGAMMA 2 1 5.2794 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay +Decay myantiB0 +1.00000 anti-Xsd gamma BTOXSGAMMA 2 1 5.2794 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay +# +# +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay +# +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_Xulnu.dec b/BaBar_2014/BB_BrecoCocktail_Xulnu.dec new file mode 100644 index 0000000..5d0a0c5 --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_Xulnu.dec @@ -0,0 +1,662 @@ +## +## BB_BrecoCocktail_Xulnu.dec +## +## +## one side B->Xulnu, other side Breco cocktail for B0/+ mesons +## +## (from B_Xulnu.dec and BrecoCocktail [adjusted]) +## +## Author Daniele del Re +## +###################################################################### +# +# +# Vub side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# Vub side +# +Decay myantiB0 +# b -> u l nu +# +# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV. +# with some thresholds to gradually switch from excl. to incl. +# modeling without big jumps keeping the better known excl. +# Brs at their actual values and constrain the incl. Br and +# weights in a way that ~40% of the total BR belongs to +# the mass region > 1.5 GeV +# +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000260 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000165 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000102 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000000 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.001365 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; + +0.000180 pi+ mu- anti-nu_mu PHOTOS ISGW2; +0.000260 rho+ mu- anti-nu_mu PHOTOS ISGW2; +0.000165 a_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000102 b_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_0+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_2+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 rho(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.001365 Xu+ mu- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; +# +0.000060 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; +# +Enddecay +# +# +Decay myB0 +# b -> u l nu +# +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000260 rho- e+ nu_e PHOTOS ISGW2; +0.000165 a_1- e+ nu_e PHOTOS ISGW2; +0.000102 b_1- e+ nu_e PHOTOS ISGW2; +0.000014 a_0- e+ nu_e PHOTOS ISGW2; +0.000014 a_2- e+ nu_e PHOTOS ISGW2; +0.000000 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2; +0.001365 Xu- e+ nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; +0.000180 pi- mu+ nu_mu PHOTOS ISGW2; +0.000260 rho- mu+ nu_mu PHOTOS ISGW2; +0.000165 a_1- mu+ nu_mu PHOTOS ISGW2; +0.000102 b_1- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_0- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_2- mu+ nu_mu PHOTOS ISGW2; +0.000000 rho(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2; +0.001365 Xu- mu+ anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; +# +# +0.000060 pi- tau+ nu_tau ISGW2; +0.000083 rho- tau+ nu_tau ISGW2; +0.000090 a_1- tau+ nu_tau ISGW2; +0.000008 b_1- tau+ nu_tau ISGW2; +0.000008 a_0- tau+ nu_tau ISGW2; +0.000008 a_2- tau+ nu_tau ISGW2; +0.000000 rho(2S)- tau+ nu_tau ISGW2; +0.000000 D(2S)- tau+ nu_tau ISGW2; +0.000000 D*(2S)- tau+ nu_tau ISGW2; +# +# +Enddecay +# +# +# force B- to always decay to X_u l nu +# +Decay myB- +# +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000030 eta e- anti-nu_e PHOTOS ISGW2; +0.000130 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000130 omega e- anti-nu_e PHOTOS ISGW2; +0.000060 eta' e- anti-nu_e PHOTOS ISGW2; +0.000082 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000048 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000041 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000041 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.001365 Xu0 e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; +# +0.000090 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000030 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000130 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000130 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000060 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000082 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_20 mu- anti-nu_mu PHOTOS ISGW2; +0.000048 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.001365 Xu0 mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; +# +0.000030 pi0 tau- anti-nu_tau ISGW2; +0.000012 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000018 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; +# +Enddecay +# +Decay myB+ +# b -> u l nu +# +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000030 eta e+ nu_e PHOTOS ISGW2; +0.000130 rho0 e+ nu_e PHOTOS ISGW2; +0.000130 omega e+ nu_e PHOTOS ISGW2; +0.000060 eta' e+ nu_e PHOTOS ISGW2; +0.000082 a_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_20 e+ nu_e PHOTOS ISGW2; +0.000048 b_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_00 e+ nu_e PHOTOS ISGW2; +0.000004 f_0 e+ nu_e PHOTOS ISGW2; +0.000004 f'_0 e+ nu_e PHOTOS ISGW2; +0.000041 f_1 e+ nu_e PHOTOS ISGW2; +0.000041 f'_1 e+ nu_e PHOTOS ISGW2; +0.000024 h_1 e+ nu_e PHOTOS ISGW2; +0.000024 h'_1 e+ nu_e PHOTOS ISGW2; +0.000004 f_2 e+ nu_e PHOTOS ISGW2; +0.000004 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; +0.001365 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; + +# +0.000090 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000030 eta mu+ nu_mu PHOTOS ISGW2; +0.000130 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000130 omega mu+ nu_mu PHOTOS ISGW2; +0.000060 eta' mu+ nu_mu PHOTOS ISGW2; +0.000082 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_20 mu+ nu_mu PHOTOS ISGW2; +0.000048 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000041 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.001365 Xu0 mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; +# +0.000030 pi0 tau+ nu_tau ISGW2; +0.000012 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000018 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; +# +Enddecay +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_Xulnu_VUB.dec b/BaBar_2014/BB_BrecoCocktail_Xulnu_VUB.dec new file mode 100644 index 0000000..05a97cd --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_Xulnu_VUB.dec @@ -0,0 +1,455 @@ +## +## BB_BrecoCocktail_Xulnu_VUB.dec +## +## +## one side B->Xulnu (not res), other side Breco cocktail for B0/+ mesons +## +## (from B_Xulnu_VUB.dec and BrecoCocktail [adjusted]) +## +## Author Daniele del Re +## +###################################################################### +# +# +# Vub side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# Vub side +# +Decay myantiB0 +# +.5 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 -1 0.28 1; +.5 Xu+ mu- anti-nu_mu VUB 4.8 1.29 0.22 -1 0.28 1; +Enddecay +CDecay myB0 + +# +# force B+ to always decay to X_u l nu +# +Decay myB+ +# b -> u l nu +# +.5 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 -1 0.28 1; +.5 Xu0 mu+ nu_mu VUB 4.8 1.29 0.22 -1 0.28 1; +Enddecay +CDecay myB- + +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_BrecoCocktail_Xulnu_excl.dec b/BaBar_2014/BB_BrecoCocktail_Xulnu_excl.dec new file mode 100644 index 0000000..352345e --- /dev/null +++ b/BaBar_2014/BB_BrecoCocktail_Xulnu_excl.dec @@ -0,0 +1,638 @@ +## +## BB_BrecoCocktail_Xulnu.dec +## +## +## one side B->Xulnu, other side Breco cocktail for B0/+ mesons +## Xu only resonant states +## +## (from B_Xulnu.dec and BrecoCocktail [adjusted]) +## +## Author Riccardo Faccini +###################################################################### +# +# +# Vub side +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- + +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +# Breco side + +Alias CmyB- B- +Alias CmyB+ B+ + +Alias CmyB0 B0 +Alias CmyantiB0 anti-B0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias MyD- D- +Alias MyD+ D+ +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# + +# Y(4S) +# +Decay Upsilon(4S) +0.25000 myB+ CmyB- VSS; +0.25000 myB- CmyB+ VSS; +0.21000 myB0 CmyantiB0 VSS_MIX dm; +0.21000 CmyB0 myantiB0 VSS_MIX dm; +0.04000 myantiB0 CmyantiB0 VSS_MIX dm; +0.04000 myB0 CmyB0 VSS_MIX dm; +Enddecay +# +# +# +# Vub side +# +Decay myantiB0 +# b -> u l nu +# +# +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000260 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000165 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000102 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000000 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000180 pi+ mu- anti-nu_mu PHOTOS ISGW2; +0.000260 rho+ mu- anti-nu_mu PHOTOS ISGW2; +0.000165 a_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000102 b_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_0+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_2+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 rho(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +# +0.000060 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; +# +Enddecay +# +# +Decay myB0 +# b -> u l nu +# +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000260 rho- e+ nu_e PHOTOS ISGW2; +0.000165 a_1- e+ nu_e PHOTOS ISGW2; +0.000102 b_1- e+ nu_e PHOTOS ISGW2; +0.000014 a_0- e+ nu_e PHOTOS ISGW2; +0.000014 a_2- e+ nu_e PHOTOS ISGW2; +0.000000 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2; +0.000180 pi- mu+ nu_mu PHOTOS ISGW2; +0.000260 rho- mu+ nu_mu PHOTOS ISGW2; +0.000165 a_1- mu+ nu_mu PHOTOS ISGW2; +0.000102 b_1- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_0- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_2- mu+ nu_mu PHOTOS ISGW2; +0.000000 rho(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2; +# +# +0.000060 pi- tau+ nu_tau ISGW2; +0.000083 rho- tau+ nu_tau ISGW2; +0.000090 a_1- tau+ nu_tau ISGW2; +0.000008 b_1- tau+ nu_tau ISGW2; +0.000008 a_0- tau+ nu_tau ISGW2; +0.000008 a_2- tau+ nu_tau ISGW2; +0.000000 rho(2S)- tau+ nu_tau ISGW2; +0.000000 D(2S)- tau+ nu_tau ISGW2; +0.000000 D*(2S)- tau+ nu_tau ISGW2; +# +# +Enddecay +# +# +# force B- to always decay to X_u l nu +# +Decay myB- +# +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000030 eta e- anti-nu_e PHOTOS ISGW2; +0.000130 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000130 omega e- anti-nu_e PHOTOS ISGW2; +0.000060 eta' e- anti-nu_e PHOTOS ISGW2; +0.000082 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000048 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000041 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000041 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; +# +0.000090 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000030 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000130 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000130 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000060 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000082 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_20 mu- anti-nu_mu PHOTOS ISGW2; +0.000048 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +# +0.000030 pi0 tau- anti-nu_tau ISGW2; +0.000012 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000018 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; +# +Enddecay +# +Decay myB+ +# b -> u l nu +# +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000030 eta e+ nu_e PHOTOS ISGW2; +0.000130 rho0 e+ nu_e PHOTOS ISGW2; +0.000130 omega e+ nu_e PHOTOS ISGW2; +0.000060 eta' e+ nu_e PHOTOS ISGW2; +0.000082 a_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_20 e+ nu_e PHOTOS ISGW2; +0.000048 b_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_00 e+ nu_e PHOTOS ISGW2; +0.000004 f_0 e+ nu_e PHOTOS ISGW2; +0.000004 f'_0 e+ nu_e PHOTOS ISGW2; +0.000041 f_1 e+ nu_e PHOTOS ISGW2; +0.000041 f'_1 e+ nu_e PHOTOS ISGW2; +0.000024 h_1 e+ nu_e PHOTOS ISGW2; +0.000024 h'_1 e+ nu_e PHOTOS ISGW2; +0.000004 f_2 e+ nu_e PHOTOS ISGW2; +0.000004 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; +# +0.000090 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000030 eta mu+ nu_mu PHOTOS ISGW2; +0.000130 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000130 omega mu+ nu_mu PHOTOS ISGW2; +0.000060 eta' mu+ nu_mu PHOTOS ISGW2; +0.000082 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_20 mu+ nu_mu PHOTOS ISGW2; +0.000048 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000041 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; +# +0.000030 pi0 tau+ nu_tau ISGW2; +0.000012 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000018 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; +# +Enddecay +# +# +# +# Reco side +# +# +Decay CmyB- +# +0.0046 MyD*0 pi- SVS; +0.0053 MyD0 pi- PHSP; +0.0134 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 MyD0 pi0 pi- PHSP; +0.0005 MyD*0 pi0 pi- PHSP; +# +0.0050 Mya_1- MyD0 SVS; +0.0021 MyD0 rho0 pi- PHSP; +0.0050 MyD0 pi+ pi- pi- PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 MyD*0 rho0 pi- PHSP; +0.0005 MyD*0 pi+ pi- pi- PHSP; +# +0.0005 MyD*0 rho- pi0 PHSP; +0.0005 MyD*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# +Decay CmyB+ +# +0.0046 Myanti-D*0 pi+ SVS; +0.0053 Myanti-D0 pi+ PHSP; +0.0134 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0155 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +# +0.0005 Myanti-D0 pi0 pi+ PHSP; +0.0005 Myanti-D*0 pi0 pi+ PHSP; +# +0.0050 Mya_1+ Myanti-D0 SVS; +0.0021 Myanti-D0 rho0 pi+ PHSP; +0.0050 Myanti-D0 pi- pi+ pi+ PHSP; +# +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0190 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0005 Myanti-D*0 rho0 pi+ PHSP; +0.0005 Myanti-D*0 pi- pi+ pi+ PHSP; +# +0.0005 Myanti-D*0 rho+ pi0 PHSP; +0.0005 Myanti-D*0 pi+ pi0 pi0 PHSP; +Enddecay +# +# +# +Decay CmyB0 +# +0.0027 MyD*- pi+ SVS; +0.0030 MyD- pi+ PHSP; +0.0082 rho+ MyD- SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho+ MyD*- SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD- pi+ pi0 PHSP; +0.0070 MyD*- pi+ pi0 PHSP; +# +0.0060 Mya_1+ MyD- SVS; +0.0011 MyD- rho0 pi+ PHSP; +0.0011 MyD- rho+ pi0 PHSP; +0.0022 MyD- pi- pi+ pi+ PHSP; +0.0010 MyD- pi0 pi+ pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*- Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*- rho0 pi+ PHSP; +0.0010 MyD*- rho+ pi0 PHSP; +0.0000 MyD*- pi- pi+ pi+ PHSP; +0.0010 MyD*- pi0 pi+ pi0 PHSP; +Enddecay +# +# +# +Decay CmyantiB0 +# +0.0027 MyD*+ pi- SVS; +0.0030 MyD+ pi- PHSP; +0.0082 rho- MyD+ SVS; +# +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.0068 rho- MyD*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +0.0010 MyD+ pi- pi0 PHSP; +0.0070 MyD*+ pi- pi0 PHSP; +# +0.0060 Mya_1- MyD+ SVS; +0.0011 MyD+ rho0 pi- PHSP; +0.0011 MyD+ rho- pi0 PHSP; +0.0022 MyD+ pi+ pi- pi- PHSP; +0.0010 MyD+ pi0 pi- pi0 PHSP; +# +# SVV_HELAMP for D* a1 taken from factorization. Recommandation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.0130 MyD*+ Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# +0.0010 MyD*+ rho0 pi- PHSP; +0.0010 MyD*+ rho- pi0 PHSP; +0.0000 MyD*+ pi+ pi- pi- PHSP; +0.0010 MyD*+ pi0 pi- pi0 PHSP; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay +# +Decay MyD- +# +# Ks pi +0.0098 MyK0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- MyK0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 MyK0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 MyK*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 MyK*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 Mya_1- MyK0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 MyK0 rho0 pi- PHSP; +0.0027 MyK0 pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD+ +# +# Ks pi +0.0098 Myanti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ Myanti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 Myanti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 Myanti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 Myanti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 Mya_1+ Myanti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 Myanti-K0 rho0 pi+ PHSP; +0.0027 Myanti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay my2-K*0 +0.3323 MyK0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 Myanti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 MyK*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 Myanti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 MyK0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 Myanti-K0 pi- VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BB_D0ppbarpi_K2pi.dec b/BaBar_2014/BB_D0ppbarpi_K2pi.dec new file mode 100644 index 0000000..0a1cc6f --- /dev/null +++ b/BaBar_2014/BB_D0ppbarpi_K2pi.dec @@ -0,0 +1,37 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D0bar p anti-p pi+, B- -> X # +# +-> K+ pi- pi0 # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-D0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BB_D0ppbarpi_K3pi.dec b/BaBar_2014/BB_D0ppbarpi_K3pi.dec new file mode 100644 index 0000000..797d180 --- /dev/null +++ b/BaBar_2014/BB_D0ppbarpi_K3pi.dec @@ -0,0 +1,38 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D0bar p anti-p pi+ B- -> X # +# +-> K+ pi- pi- pi+ # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-D0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BB_D0ppbarpi_Kpi.dec b/BaBar_2014/BB_D0ppbarpi_Kpi.dec new file mode 100644 index 0000000..cfd3dfa --- /dev/null +++ b/BaBar_2014/BB_D0ppbarpi_Kpi.dec @@ -0,0 +1,37 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D0bar p anti-p pi+, B- -> X # +# +-> K+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay + +Decay MyB+ + 1.00000 Myanti-D0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BB_D0ppbarpi_Ks2pi.dec b/BaBar_2014/BB_D0ppbarpi_Ks2pi.dec new file mode 100644 index 0000000..f6c4613 --- /dev/null +++ b/BaBar_2014/BB_D0ppbarpi_Ks2pi.dec @@ -0,0 +1,53 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D0bar p anti-p pi+ B- -> X # +# -> K0 pi+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-D0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD0 p+ anti-p- pi- PHSP; +Enddecay +# // resonance structure in Dalitz modelled +Decay Myanti-D0 +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.0000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BB_etapDetapipitogg.dec b/BaBar_2014/BB_etapDetapipitogg.dec new file mode 100644 index 0000000..3886807 --- /dev/null +++ b/BaBar_2014/BB_etapDetapipitogg.dec @@ -0,0 +1,42 @@ +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-D0 eta' PHSP; +Enddecay + +Decay B- +1. D- eta' PHSP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapDstaretapipitogg.dec b/BaBar_2014/BB_etapDstaretapipitogg.dec new file mode 100644 index 0000000..78bed50 --- /dev/null +++ b/BaBar_2014/BB_etapDstaretapipitogg.dec @@ -0,0 +1,42 @@ +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-D*0 eta' PHSP; +Enddecay + +Decay B- +1. D*- eta' PHSP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapK1etapipitogg.dec b/BaBar_2014/BB_etapK1etapipitogg.dec new file mode 100644 index 0000000..2de9d56 --- /dev/null +++ b/BaBar_2014/BB_etapK1etapipitogg.dec @@ -0,0 +1,42 @@ +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-K_10 eta' SVS; +Enddecay + +Decay B- +1. K_1- eta' SVS; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapK1staretapipitogg.dec b/BaBar_2014/BB_etapK1staretapipitogg.dec new file mode 100644 index 0000000..af15d69 --- /dev/null +++ b/BaBar_2014/BB_etapK1staretapipitogg.dec @@ -0,0 +1,42 @@ +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-K'_10 eta' SVS; +Enddecay + +Decay B- +1. K'_1- eta' SVS; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapK2staretapipitogg.dec b/BaBar_2014/BB_etapK2staretapipitogg.dec new file mode 100644 index 0000000..cc0cc8b --- /dev/null +++ b/BaBar_2014/BB_etapK2staretapipitogg.dec @@ -0,0 +1,42 @@ +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-K_2*0 eta' PHSP; +Enddecay + +Decay B- +1. K_2*- eta' PHSP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapKstaretapipitogg.dec b/BaBar_2014/BB_etapKstaretapipitogg.dec new file mode 100644 index 0000000..76b7741 --- /dev/null +++ b/BaBar_2014/BB_etapKstaretapipitogg.dec @@ -0,0 +1,38 @@ +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +# +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. K*S eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; +Enddecay + +Decay B- +1. K*- eta' SVS; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapXs_etapipietatogg.dec b/BaBar_2014/BB_etapXs_etapipietatogg.dec new file mode 100644 index 0000000..38bc007 --- /dev/null +++ b/BaBar_2014/BB_etapXs_etapipietatogg.dec @@ -0,0 +1,44 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. eta' s anti-d JETSET 48; +Enddecay + +Decay B- +1. eta' s anti-u JETSET 48; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapXs_etapipietatopipipi0.dec b/BaBar_2014/BB_etapXs_etapipietatopipipi0.dec new file mode 100644 index 0000000..455e2fe --- /dev/null +++ b/BaBar_2014/BB_etapXs_etapipietatopipipi0.dec @@ -0,0 +1,43 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = K +npi, Bbar -> X ## | +# --eta pi pi +# | +# -pi pi pi0 +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. eta' s anti-d JETSET 48; +Enddecay + +Decay B- +1. eta' s anti-u JETSET 48; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. pi+ pi- pi0 PHSP; +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapgXs_etapipietatogg.dec b/BaBar_2014/BB_etapgXs_etapipietatogg.dec new file mode 100644 index 0000000..670be6e --- /dev/null +++ b/BaBar_2014/BB_etapgXs_etapipietatogg.dec @@ -0,0 +1,44 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = s qbar gluon, Bbar -> X # | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. eta' s anti-d g JETSET 48; +Enddecay + +Decay B- +1. eta' s anti-u g JETSET 48; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapgXs_etapipietatopipipi0.dec b/BaBar_2014/BB_etapgXs_etapipietatopipipi0.dec new file mode 100644 index 0000000..251a1fa --- /dev/null +++ b/BaBar_2014/BB_etapgXs_etapipietatopipipi0.dec @@ -0,0 +1,44 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->EtapX X = s qbar gluon, Bbar -> X # | +# --eta pi pi +# | +# -pi pi pi0 +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. eta' s anti-d g JETSET 48; +Enddecay + +Decay B- +1. eta' s anti-u g JETSET 48; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta + +1. pi+ pi- pi0 PHSP; +Enddecay +# + + +End diff --git a/BaBar_2014/BB_etapsqbar.dec b/BaBar_2014/BB_etapsqbar.dec new file mode 100644 index 0000000..852696b --- /dev/null +++ b/BaBar_2014/BB_etapsqbar.dec @@ -0,0 +1,42 @@ +################################################################### +#inclusive etap production from B's +#B->EtapX X , Bbar -> X +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. eta' s anti-d JETSET 31; +Enddecay + +Decay B- +1. eta' s anti-u JETSET 31; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_incletap.dec b/BaBar_2014/BB_incletap.dec new file mode 100644 index 0000000..51225da --- /dev/null +++ b/BaBar_2014/BB_incletap.dec @@ -0,0 +1,35 @@ +################################################################### +#inclusive etap production from B's +#B->EtapX X , Bbar -> X +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur 23 Nov 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + + + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; +Enddecay +# + + +End diff --git a/BaBar_2014/BB_sgqbar_etapipietatogg.dec b/BaBar_2014/BB_sgqbar_etapipietatogg.dec new file mode 100644 index 0000000..5e330f2 --- /dev/null +++ b/BaBar_2014/BB_sgqbar_etapipietatogg.dec @@ -0,0 +1,47 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->sgqbar, Bbar -> X +# | +# eta' +# | +# --eta pi pi +# | +# -gg +# +# Author: A.Hicheur 1 Dec 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. s anti-d g JETSET 33; +Enddecay + +Decay B- +1. s anti-u g JETSET 33; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_sgqbar_etapipietatogg2.dec b/BaBar_2014/BB_sgqbar_etapipietatogg2.dec new file mode 100644 index 0000000..f13e6fb --- /dev/null +++ b/BaBar_2014/BB_sgqbar_etapipietatogg2.dec @@ -0,0 +1,47 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->sgqbar, Bbar -> X +# | +# eta' +# | +# --eta pi pi +# | +# -gg +# +# Author: A.Hicheur 1 Dec 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. s g anti-d JETSET 33; +Enddecay + +Decay B- +1. s g anti-u JETSET 33; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/BB_sgqbar_etapipietatopipipi0.dec b/BaBar_2014/BB_sgqbar_etapipietatopipipi0.dec new file mode 100644 index 0000000..d3a5bd2 --- /dev/null +++ b/BaBar_2014/BB_sgqbar_etapipietatopipipi0.dec @@ -0,0 +1,46 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->sgqbar, Bbar -> X +# | +# eta' +# | +# --eta pi pi +# | +# -pi pi pi0 +# +# Author: A.Hicheur 1 Dec 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. s anti-d g JETSET 33; +Enddecay + +Decay B- +1. s anti-u g JETSET 33; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. pi+ pi- pi0 PHSP; +Enddecay +# + + +End diff --git a/BaBar_2014/BB_sgqbar_etapipietatopipipi02.dec b/BaBar_2014/BB_sgqbar_etapipietatopipipi02.dec new file mode 100644 index 0000000..37dd8a8 --- /dev/null +++ b/BaBar_2014/BB_sgqbar_etapipietatopipipi02.dec @@ -0,0 +1,46 @@ + + +################################################################### +# quasi inclusive etap production from B's +#B->sgqbar, Bbar -> X +# | +# eta' +# | +# --eta pi pi +# | +# -pi pi pi0 +# +# Author: A.Hicheur 1 Dec 2000 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. s g anti-d JETSET 33; +Enddecay + +Decay B- +1. s g anti-u JETSET 33; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. pi+ pi- pi0 PHSP; +Enddecay +# + + +End diff --git a/BaBar_2014/BBbar_Chi1c_HighRes.dec b/BaBar_2014/BBbar_Chi1c_HighRes.dec new file mode 100644 index 0000000..78f6df8 --- /dev/null +++ b/BaBar_2014/BBbar_Chi1c_HighRes.dec @@ -0,0 +1,102 @@ +################################################################### +# B0~ --> chi1c High K resonnances # +# | # +# | # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# D. Bernard Jan 2003 # +################################################################### +# +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias Mychi_c1 chi_c1 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +0.250 MyB+ B- VSS; +0.250 MyB- B+ VSS; +Enddecay +# +Decay MyB0 +1.0 Mychi_c1 K_0*0 PHSP; +1.0 Mychi_c1 K_10 PHSP; +1.0 Mychi_c1 K_2*0 PHSP; +1.0 Mychi_c1 K'_10 PHSP; +1.0 Mychi_c1 K'*0 PHSP; +1.0 Mychi_c1 K''*0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0 Mychi_c1 anti-K_0*0 PHSP; +1.0 Mychi_c1 anti-K_10 PHSP; +1.0 Mychi_c1 anti-K_2*0 PHSP; +1.0 Mychi_c1 anti-K'_10 PHSP; +1.0 Mychi_c1 anti-K'*0 PHSP; +1.0 Mychi_c1 anti-K''*0 PHSP; +Enddecay +# +Decay MyB+ +1.0 Mychi_c1 K_0*+ PHSP; +1.0 Mychi_c1 K_1+ PHSP; +1.0 Mychi_c1 K_2*+ PHSP; +1.0 Mychi_c1 K'_1+ PHSP; +1.0 Mychi_c1 K'*+ PHSP; +1.0 Mychi_c1 K''*+ PHSP; +Enddecay +# +Decay MyB- +1.0 Mychi_c1 K_0*- PHSP; +1.0 Mychi_c1 K_1- PHSP; +1.0 Mychi_c1 K_2*- PHSP; +1.0 Mychi_c1 K'_1- PHSP; +1.0 Mychi_c1 K'*- PHSP; +1.0 Mychi_c1 K''*- PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +#force the J/psi to go to two leptons.. +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BBbar_Jpsi_HighRes.dec b/BaBar_2014/BBbar_Jpsi_HighRes.dec new file mode 100644 index 0000000..4ef4f01 --- /dev/null +++ b/BaBar_2014/BBbar_Jpsi_HighRes.dec @@ -0,0 +1,143 @@ +################################################### +# # +# B -> Jpsi High K resonnances # +# | # +# ->l+l- # +# # +# Contact:Johann Cohen-Tanugi # +# cohen@slac.stanford.edu # +# Created: 16/Oct/00 # +# # +# Complement : D. Bernard Jan 2003 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + + +# +Decay Upsilon(4S) +0.500 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +0.250 MyB+ B- VSS; +0.250 MyB- B+ VSS; +Enddecay +# +Decay MyB0 +1.0 MyJ/psi K_0*0 PHSP; +1.0 MyJ/psi K_10 PHSP; +1.0 MyJ/psi K_2*0 PHSP; +1.0 MyJ/psi K'_10 PHSP; +1.0 MyJ/psi K'*0 PHSP; +1.0 MyJ/psi K''*0 PHSP; +1.0 MyJ/psi K_3*0 PHSP; +1.0 MyJ/psi K_4*0 PHSP; +1.0 MyJ/psi Myanti-D0 SVS; +Enddecay +# +Decay Myanti-B0 +1.0 MyJ/psi anti-K_0*0 PHSP; +1.0 MyJ/psi anti-K_10 PHSP; +1.0 MyJ/psi anti-K_2*0 PHSP; +1.0 MyJ/psi anti-K'_10 PHSP; +1.0 MyJ/psi anti-K'*0 PHSP; +1.0 MyJ/psi anti-K''*0 PHSP; +1.0 MyJ/psi anti-K_3*0 PHSP; +1.0 MyJ/psi anti-K_4*0 PHSP; +1.000 MyJ/psi MyD0 SVS; +Enddecay +# +Decay MyB+ +1.0 MyJ/psi K_0*+ PHSP; +1.0 MyJ/psi K_1+ PHSP; +1.0 MyJ/psi K_2*+ PHSP; +1.0 MyJ/psi K'_1+ PHSP; +1.0 MyJ/psi K'*+ PHSP; +1.0 MyJ/psi K''*+ PHSP; +1.0 MyJ/psi K_3*+ PHSP; +1.0 MyJ/psi K_4*+ PHSP; +1.0 MyJ/psi MyD+ SVS; +Enddecay +# +Decay MyB- +1.0 MyJ/psi K_0*- PHSP; +1.0 MyJ/psi K_1- PHSP; +1.0 MyJ/psi K_2*- PHSP; +1.0 MyJ/psi K'_1- PHSP; +1.0 MyJ/psi K'*- PHSP; +1.0 MyJ/psi K''*- PHSP; +1.0 MyJ/psi K_3*- PHSP; +1.0 MyJ/psi K_4*- PHSP; +1.0 MyJ/psi MyD- SVS; +Enddecay +# +# IN THE FOLLOWING BEWARE ONLY K pi DECAYS ARE TAKEN INTO ACCOUNT +Decay K_3*+ +1.0000 MyK_S0 pi+ PHSP; +0.5000 K+ pi0 PHSP; +Enddecay +Decay K_3*- +1.0000 MyK_S0 pi- PHSP; +0.5000 K- pi0 PHSP; +Enddecay +Decay K_3*0 +1.0000 K+ pi- PHSP; +0.5000 MyK_S0 pi0 PHSP; +Enddecay +Decay anti-K_3*0 +1.0000 K- pi+ PHSP; +0.5000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay K_4*+ +1.0000 MyK_S0 pi+ PHSP; +0.5000 K+ pi0 PHSP; +Enddecay +Decay K_4*- +1.0000 MyK_S0 pi- PHSP; +0.5000 K- pi0 PHSP; +Enddecay +Decay K_4*0 +1.0000 K+ pi- PHSP; +0.5000 MyK_S0 pi0 PHSP; +Enddecay +Decay anti-K_4*0 +1.0000 K- pi+ PHSP; +0.5000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyD0 +0.5000 MyK_S0 pi0 PHSP; +0.5000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +0.5000 MyK_S0 pi0 PHSP; +0.5000 K+ pi- PHSP; +Enddecay +Decay MyD- +1.0000 MyK_S0 pi- PHSP; +Enddecay +Decay MyD+ +1.0000 MyK_S0 pi+ PHSP; +Enddecay + +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +#force the J/psi to go to two leptons.. +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BBbar_Jpsi_HighRes_shorter.dec b/BaBar_2014/BBbar_Jpsi_HighRes_shorter.dec new file mode 100644 index 0000000..c57cb6f --- /dev/null +++ b/BaBar_2014/BBbar_Jpsi_HighRes_shorter.dec @@ -0,0 +1,63 @@ +################################################### +# # +# Bs -> Jpsi High K resonnances # +# | # +# ->l+l- # +# # +# Contact:Johann Cohen-Tanugi # +# cohen@slac.stanford.edu # +# Created: 16/Oct/00 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.500 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +0.2500 MyB+ B- VSS; +0.2500 MyB- B+ VSS; +Enddecay +# +Decay MyB0 +1.0 MyJ/psi K_0*0 PHSP; +1.0 MyJ/psi K_10 PHSP; +1.0 MyJ/psi K_2*0 PHSP; +1.0 MyJ/psi K'_10 PHSP; +1.0 MyJ/psi K'*0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0 MyJ/psi anti-K_0*0 PHSP; +1.0 MyJ/psi anti-K_10 PHSP; +1.0 MyJ/psi anti-K_2*0 PHSP; +1.0 MyJ/psi anti-K'_10 PHSP; +1.0 MyJ/psi anti-K'*0 PHSP; +Enddecay +# +Decay MyB+ +1.0 MyJ/psi K_0*+ PHSP; +1.0 MyJ/psi K_1+ PHSP; +1.0 MyJ/psi K_2*+ PHSP; +1.0 MyJ/psi K'_1+ PHSP; +1.0 MyJ/psi K'*+ PHSP; +Enddecay +# +Decay MyB- +1.0 MyJ/psi K_0*- PHSP; +1.0 MyJ/psi K_1- PHSP; +1.0 MyJ/psi K_2*- PHSP; +1.0 MyJ/psi K'_1- PHSP; +1.0 MyJ/psi K'*- PHSP; +Enddecay +# +#force the J/psi to go to two leptons.. +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BBbar_Psi2s_HighRes.dec b/BaBar_2014/BBbar_Psi2s_HighRes.dec new file mode 100644 index 0000000..140cc6e --- /dev/null +++ b/BaBar_2014/BBbar_Psi2s_HighRes.dec @@ -0,0 +1,81 @@ +################################################### +# # +# B -> Psi2S High K resonnances # +# | # +# ->l+l- et JPsi pi p # +# # +# D. Bernard Jan 2003. copie et complement # +# de JPsi (Johann) # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias Mypsi(2S) psi(2S) +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.500 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +0.250 MyB+ B- VSS; +0.250 MyB- B+ VSS; +Enddecay +# +Decay MyB0 +1.0 Mypsi(2S) K_0*0 PHSP; +1.0 Mypsi(2S) K_10 PHSP; +1.0 Mypsi(2S) K_2*0 PHSP; +1.0 Mypsi(2S) K'_10 PHSP; +1.0 Mypsi(2S) K'*0 PHSP; +1.0 Mypsi(2S) K''*0 PHSP; +Enddecay +# +Decay Myanti-B0 +1.0 Mypsi(2S) anti-K_0*0 PHSP; +1.0 Mypsi(2S) anti-K_10 PHSP; +1.0 Mypsi(2S) anti-K_2*0 PHSP; +1.0 Mypsi(2S) anti-K'_10 PHSP; +1.0 Mypsi(2S) anti-K'*0 PHSP; +1.0 Mypsi(2S) anti-K''*0 PHSP; +Enddecay +# +Decay MyB+ +1.0 Mypsi(2S) K_0*+ PHSP; +1.0 Mypsi(2S) K_1+ PHSP; +1.0 Mypsi(2S) K_2*+ PHSP; +1.0 Mypsi(2S) K'_1+ PHSP; +1.0 Mypsi(2S) K'*+ PHSP; +1.0 Mypsi(2S) K''*+ PHSP; +Enddecay +# +Decay MyB- +1.0 Mypsi(2S) K_0*- PHSP; +1.0 Mypsi(2S) K_1- PHSP; +1.0 Mypsi(2S) K_2*- PHSP; +1.0 Mypsi(2S) K'_1- PHSP; +1.0 Mypsi(2S) K'*- PHSP; +1.0 Mypsi(2S) K''*- PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- PHOTOS VLL; +Enddecay +# +#force the J/psi to go to two leptons.. +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BBetapNPi.dec b/BaBar_2014/BBetapNPi.dec new file mode 100644 index 0000000..8efa3a2 --- /dev/null +++ b/BaBar_2014/BBetapNPi.dec @@ -0,0 +1,144 @@ +################################################################### +# cocktail eta' pi, eta' pi pi,... +#B->eta' npi Bbar -> X ## | +# --eta pi pi +# | +# -gamma gamma +# +# Author: A.Hicheur May,25 2001, Modified October 2001 +# hicheur@lapp.in2p3.fr # +################################################################### +# +Define beta 0.39 +#Define dm .464e12 + +# +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +Alias Mya1minus a_1- +Alias Mya1plus a_1+ +Alias Myb1minus b_1- +Alias Myb1plus b_1+ +Alias Mya1 a_10 +Alias Myf1 f_1 +############################################################################ + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B + +0.333333333 rho0 Myetap SVS; +0.333333333 Mya1 Myetap SVS; +0.333333333 Myf1 Myetap SVS; + +Enddecay + +Decay MyB0 + +0.333333333 rho0 Myetap SVS; +0.333333333 Mya1 Myetap SVS; +0.333333333 Myf1 Myetap SVS; + +Enddecay + +Decay MyBminus + +0.25 pi- Myetap PHSP; +0.25 rho- Myetap SVS; +0.25 Mya1minus Myetap SVS; +0.25 Myb1minus Myetap SVS; + +Enddecay + +Decay MyBplus + +0.25 pi+ Myetap PHSP; +0.25 rho+ Myetap SVS; +0.25 Mya1plus Myetap SVS; +0.25 Myb1plus Myetap SVS; + +Enddecay + +Decay Myf1 + +1. pi+ pi- pi+ pi- PHSP; + +Enddecay + +Decay Myb1minus + +1. pi+ pi- pi- pi0 PHSP; + +Enddecay + +Decay Myb1plus + +1. pi- pi+ pi+ pi0 PHSP; + +Enddecay + +Decay Mya1minus + +1. rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +Enddecay + +Decay Mya1plus + +1. rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +Enddecay + +Decay Mya1 + +1. rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +Enddecay + +Decay rho0 + +1. pi+ pi- VSS; + +Enddecay + +Decay rho- + +1. pi- pi0 VSS; + +Enddecay + +Decay rho+ + +1. pi+ pi0 VSS; + +Enddecay + + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay +# + + +End diff --git a/BaBar_2014/B_Xulnu.dec b/BaBar_2014/B_Xulnu.dec new file mode 100644 index 0000000..925bb17 --- /dev/null +++ b/BaBar_2014/B_Xulnu.dec @@ -0,0 +1,291 @@ +############################################################################### +# This is a DECAY.DEC file for the X_u l nu mixture: # +# Up(4S) -> B0 B0bar +CC # +# | | # +# | -> X_u l- nu_bar (l = e, mu or tau) # +# | # +# -> X # +# # +# # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> X_u l- nu_bar (l = e, mu or tau) # +# | # +# -> X # +# # +# Mail: NATALIA@SLAC.STANFORD.EDU +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# the same for B0, B0bar +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +0.25000 B+ myB- VSS; +0.25000 B- myB+ VSS; +0.21000 B0 myantiB0 VSS_MIX dm; +0.21000 myB0 anti-B0 VSS_MIX dm; +0.04000 anti-B0 myantiB0 VSS_MIX dm; +0.04000 B0 myB0 VSS_MIX dm; +Enddecay +# +# force anti-B0 to always decay to Xu l nu +# +# +Decay myantiB0 +# b -> u l nu +# +# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV. +# with some thresholds to gradually switch from excl. to incl. +# modeling without big jumps keeping the better known excl. +# Brs at their actual values and constrain the incl. Br and +# weights in a way that ~40% of the total BR belongs to +# the mass region > 1.5 GeV +# + +# 02/19/2003 R. Faccini weights have been modified in order to get the nonresonant +# component down to 0 and to get a non resonant vs resonant +# fraction which is consistent with the winter '03 results +# (inclusive b->u BF=2.1 10^-3; exclusive b->u BF=0.74 10^-3) + + +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000260 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000165 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000102 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000000 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2; +#0.001365 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 1 +# 0 1; +0.001365 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; +0.000180 pi+ mu- anti-nu_mu PHOTOS ISGW2; +0.000260 rho+ mu- anti-nu_mu PHOTOS ISGW2; +0.000165 a_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000102 b_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_0+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_2+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 rho(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +#0.001365 Xu+ mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 1 +#0 1; +0.001365 Xu+ mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; +# +0.000060 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; +# +Enddecay +# +# +Decay myB0 +# b -> u l nu +# +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000260 rho- e+ nu_e PHOTOS ISGW2; +0.000165 a_1- e+ nu_e PHOTOS ISGW2; +0.000102 b_1- e+ nu_e PHOTOS ISGW2; +0.000014 a_0- e+ nu_e PHOTOS ISGW2; +0.000014 a_2- e+ nu_e PHOTOS ISGW2; +0.000000 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2; +#.001365 Xu- e+ nu_e PHOTOS VUB 4.8 1.29 0.22 1 +#0 1 ; +0.001365 Xu- e+ nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; + + +0.000180 pi- mu+ nu_mu PHOTOS ISGW2; +0.000260 rho- mu+ nu_mu PHOTOS ISGW2; +0.000165 a_1- mu+ nu_mu PHOTOS ISGW2; +0.000102 b_1- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_0- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_2- mu+ nu_mu PHOTOS ISGW2; +0.000000 rho(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2; +#0.001365 Xu- mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 1 +#0 1 ; +0.001365 Xu- mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; + +# +0.000060 pi- tau+ nu_tau ISGW2; +0.000083 rho- tau+ nu_tau ISGW2; +0.000090 a_1- tau+ nu_tau ISGW2; +0.000008 b_1- tau+ nu_tau ISGW2; +0.000008 a_0- tau+ nu_tau ISGW2; +0.000008 a_2- tau+ nu_tau ISGW2; +0.000000 rho(2S)- tau+ nu_tau ISGW2; +0.000000 D(2S)- tau+ nu_tau ISGW2; +0.000000 D*(2S)- tau+ nu_tau ISGW2; +# +Enddecay +# +# force B- to always decay to X_u l nu +# +Decay myB- +# +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000030 eta e- anti-nu_e PHOTOS ISGW2; +0.000130 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000130 omega e- anti-nu_e PHOTOS ISGW2; +0.000060 eta' e- anti-nu_e PHOTOS ISGW2; +0.000082 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000048 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000041 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000041 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; +#0.001365 Xu0 e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 1 +#0 1 ; +0.001365 Xu0 e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; + +0.000090 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000030 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000130 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000130 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000060 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000082 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_20 mu- anti-nu_mu PHOTOS ISGW2; +0.000048 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +#0.001365 Xu0 mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 1 +#0 1 ; +0.001365 Xu0 mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; +# +0.000030 pi0 tau- anti-nu_tau ISGW2; +0.000012 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000018 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; +# +Enddecay +# +Decay myB+ +# b -> u l nu +# +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000030 eta e+ nu_e PHOTOS ISGW2; +0.000130 rho0 e+ nu_e PHOTOS ISGW2; +0.000130 omega e+ nu_e PHOTOS ISGW2; +0.000060 eta' e+ nu_e PHOTOS ISGW2; +0.000082 a_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_20 e+ nu_e PHOTOS ISGW2; +0.000048 b_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_00 e+ nu_e PHOTOS ISGW2; +0.000004 f_0 e+ nu_e PHOTOS ISGW2; +0.000004 f'_0 e+ nu_e PHOTOS ISGW2; +0.000041 f_1 e+ nu_e PHOTOS ISGW2; +0.000041 f'_1 e+ nu_e PHOTOS ISGW2; +0.000024 h_1 e+ nu_e PHOTOS ISGW2; +0.000024 h'_1 e+ nu_e PHOTOS ISGW2; +0.000004 f_2 e+ nu_e PHOTOS ISGW2; +0.000004 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; +#0.001365 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 1 +#0 1 ; +0.001365 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; + +0.000090 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000030 eta mu+ nu_mu PHOTOS ISGW2; +0.000130 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000130 omega mu+ nu_mu PHOTOS ISGW2; +0.000060 eta' mu+ nu_mu PHOTOS ISGW2; +0.000082 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_20 mu+ nu_mu PHOTOS ISGW2; +0.000048 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000041 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; +#0.001365 Xu0 mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 1 +#0 1 ; +0.001365 Xu0 mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 20 +0.00 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; + +0.000030 pi0 tau+ nu_tau ISGW2; +0.000012 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000018 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; +# +Enddecay +# +End diff --git a/BaBar_2014/B_Xulnu_VUB.dec b/BaBar_2014/B_Xulnu_VUB.dec new file mode 100644 index 0000000..9d7108a --- /dev/null +++ b/BaBar_2014/B_Xulnu_VUB.dec @@ -0,0 +1,88 @@ +############################################################################### +# This is B_Xulnu_VUB.dec by Sven Menke for the X_u l nu mixture: # +# Up(4S) -> B0 B0bar +CC # +# | | # +# | -> X_u l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> X_u l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# it uses the model VUB which is an O(alpha_s) triple differential decay rate # +# for the B Meson to an inclusive X_u state and a lepton and neutrino. # +# The model has the following parameters: # +# 1) mb : the b-Quark mass. The authors of hep-ph/9905351 claim that # +# a range of 4.65 GeV to 4.95 GeV is reasonable. # +# 2) a : the Fermi Motion parameter. its default is 1.29 # +# smaller values give broader distributions; larger values # +# more narrow distributions for the fermi momentum. # +# 3) alpha_s : the strong coupling constant at the b-Quark Mass. This is # +# direct proportional to the amount of the built in radiative # +# QCD corrections # +# 4) N : the number of mass thresholds. This parameter should be at # +# least 1 # +# This mechanism allows to modify the Xu mass spectra in order# +# to mix this inclusive model with exclusive models. # +# For the purpose of a dedicated standalone inclusive run this# +# parameter should be 1 # +# Extra Feature: If the parameter is set to -N (minus N) # +# the internal parameter q+/10000 is stored as the ctau # +# value of the produced Xu. It can be reconstructed by # +# multiplying the difference of the vertex times of any # +# daughter of the Xu and the Xu by 10000 and reversing the # +# boost which can be done by multiplying this number by # +# m_Xu/E_Xu (the ratio of Xu mass over Xu energy in the lab). # +# This cludge allows for easy reweighting of the Fermi-motion.# +# 5) m0 : the lowest mass threshold (must be larger than 2*m_pi) # +# 6) w0 : the relative weight for the bin ]m0,m1] if N > 1 or for the # +# entire range ]m0,Infinity] if this is the last threshold # +# 7 - 2N+3) odd : next mass threshold in ascending order. # +# 8 - 2N+4) even: next relative weight # +############################################################################### +# Create our own versions of B-, B+, B0, anti-B0 which will decay to Xu l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# the same for B0, B0bar +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +0.25000 B+ myB- VSS; +0.25000 B- myB+ VSS; +0.21000 B0 myantiB0 VSS_MIX dm; +0.21000 myB0 anti-B0 VSS_MIX dm; +0.04000 anti-B0 myantiB0 VSS_MIX dm; +0.04000 B0 myB0 VSS_MIX dm; +Enddecay +# +# force all myB particles to always decay to Xu l nu +# +# +Decay myantiB0 +# b -> u l nu +# +.5 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 -1 0.28 1; +.5 Xu+ mu- anti-nu_mu VUB 4.8 1.29 0.22 -1 0.28 1; +Enddecay +CDecay myB0 +Decay myB+ +# b -> u l nu +# +.5 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 -1 0.28 1; +.5 Xu0 mu+ nu_mu VUB 4.8 1.29 0.22 -1 0.28 1; +Enddecay +CDecay myB- +End + diff --git a/BaBar_2014/B_Xulnu_excl.dec b/BaBar_2014/B_Xulnu_excl.dec new file mode 100644 index 0000000..4e9d4e5 --- /dev/null +++ b/BaBar_2014/B_Xulnu_excl.dec @@ -0,0 +1,246 @@ +############################################################################### +# This is a DECAY.DEC file for the X_u l nu mixture # +# (Xu only exclusive final states): # +# Up(4S) -> B0 B0bar +CC # +# | | # +# | -> X_u l- nu_bar (l = e, mu or tau) # +# | # +# -> X # +# # +# # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> X_u l- nu_bar (l = e, mu or tau) # +# | # +# -> X # +# # +# Mail: RFACCINI@SLAC.STANFORD.EDU +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# the same for B0, B0bar +# +Alias myB0 B0 +Alias myantiB0 anti-B0 +ChargeConj myB0 myantiB0 +# +# +Decay Upsilon(4S) +0.25000 B+ myB- VSS; +0.25000 B- myB+ VSS; +0.21000 B0 myantiB0 VSS_MIX dm; +0.21000 myB0 anti-B0 VSS_MIX dm; +0.04000 anti-B0 myantiB0 VSS_MIX dm; +0.04000 B0 myB0 VSS_MIX dm; +Enddecay +# +# force anti-B0 to always decay to Xu l nu +# +# +Decay myantiB0 +# b -> u l nu +# + + +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000260 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000165 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000102 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000000 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000180 pi+ mu- anti-nu_mu PHOTOS ISGW2; +0.000260 rho+ mu- anti-nu_mu PHOTOS ISGW2; +0.000165 a_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000102 b_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_0+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_2+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 rho(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +# +0.000060 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D(2S)+ tau- anti-nu_tau ISGW2; +0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; +# +Enddecay +# +# +Decay myB0 +# b -> u l nu +# +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000260 rho- e+ nu_e PHOTOS ISGW2; +0.000165 a_1- e+ nu_e PHOTOS ISGW2; +0.000102 b_1- e+ nu_e PHOTOS ISGW2; +0.000014 a_0- e+ nu_e PHOTOS ISGW2; +0.000014 a_2- e+ nu_e PHOTOS ISGW2; +0.000000 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D(2S)- e+ nu_e PHOTOS ISGW2; +0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2; + +0.000180 pi- mu+ nu_mu PHOTOS ISGW2; +0.000260 rho- mu+ nu_mu PHOTOS ISGW2; +0.000165 a_1- mu+ nu_mu PHOTOS ISGW2; +0.000102 b_1- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_0- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_2- mu+ nu_mu PHOTOS ISGW2; +0.000000 rho(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2; +# +0.000060 pi- tau+ nu_tau ISGW2; +0.000083 rho- tau+ nu_tau ISGW2; +0.000090 a_1- tau+ nu_tau ISGW2; +0.000008 b_1- tau+ nu_tau ISGW2; +0.000008 a_0- tau+ nu_tau ISGW2; +0.000008 a_2- tau+ nu_tau ISGW2; +0.000000 rho(2S)- tau+ nu_tau ISGW2; +0.000000 D(2S)- tau+ nu_tau ISGW2; +0.000000 D*(2S)- tau+ nu_tau ISGW2; +# +Enddecay +# +# force B- to always decay to X_u l nu +# +Decay myB- +# +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000030 eta e- anti-nu_e PHOTOS ISGW2; +0.000130 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000130 omega e- anti-nu_e PHOTOS ISGW2; +0.000060 eta' e- anti-nu_e PHOTOS ISGW2; +0.000082 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000048 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000041 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000041 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; +# +0.000090 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000030 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000130 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000130 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000060 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000082 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_20 mu- anti-nu_mu PHOTOS ISGW2; +0.000048 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +# +0.000030 pi0 tau- anti-nu_tau ISGW2; +0.000012 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000018 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; +# +Enddecay +# +Decay myB+ +# b -> u l nu +# +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000030 eta e+ nu_e PHOTOS ISGW2; +0.000130 rho0 e+ nu_e PHOTOS ISGW2; +0.000130 omega e+ nu_e PHOTOS ISGW2; +0.000060 eta' e+ nu_e PHOTOS ISGW2; +0.000082 a_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_20 e+ nu_e PHOTOS ISGW2; +0.000048 b_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_00 e+ nu_e PHOTOS ISGW2; +0.000004 f_0 e+ nu_e PHOTOS ISGW2; +0.000004 f'_0 e+ nu_e PHOTOS ISGW2; +0.000041 f_1 e+ nu_e PHOTOS ISGW2; +0.000041 f'_1 e+ nu_e PHOTOS ISGW2; +0.000024 h_1 e+ nu_e PHOTOS ISGW2; +0.000024 h'_1 e+ nu_e PHOTOS ISGW2; +0.000004 f_2 e+ nu_e PHOTOS ISGW2; +0.000004 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; +# +0.000090 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000030 eta mu+ nu_mu PHOTOS ISGW2; +0.000130 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000130 omega mu+ nu_mu PHOTOS ISGW2; +0.000060 eta' mu+ nu_mu PHOTOS ISGW2; +0.000082 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_20 mu+ nu_mu PHOTOS ISGW2; +0.000048 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000041 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; +# +0.000030 pi0 tau+ nu_tau ISGW2; +0.000012 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000018 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; +# +Enddecay +# +End diff --git a/BaBar_2014/Bch_D02pi.dec b/BaBar_2014/Bch_D02pi.dec new file mode 100644 index 0000000..fd39b35 --- /dev/null +++ b/BaBar_2014/Bch_D02pi.dec @@ -0,0 +1,48 @@ +######################################################### +# Decay: B- -> D0 (pi0pi-); B+ -> X; + cc # +# \ \ # +# \ \____rho-, pi0pi- # +# \ # +# \__Kpi # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Myrho+ rho+ +Alias Myrho- rho- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB- +0.60 MyD0 pi0 pi- PHSP; +0.40 Myrho- MyD0 SVS; +Enddecay +# +Decay MyB+ +0.60 Myanti-D0 pi0 pi+ PHSP; +0.40 Myrho+ Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myrho- +1.0 pi0 pi- VSS; +Enddecay +# +Decay Myrho+ +1.0 pi0 pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/Bch_D03pi.dec b/BaBar_2014/Bch_D03pi.dec new file mode 100644 index 0000000..b53105c --- /dev/null +++ b/BaBar_2014/Bch_D03pi.dec @@ -0,0 +1,102 @@ +######################################################### +# Decay: B- -> D0 (3pi)-; B+ -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1-; # +# \ # +# \__Kpi, Kpipi0, Kpipipi # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB- +0.40 MyD0 pi+ pi- pi- PHSP; +0.40 MyD0 Myrho0 pi- PHSP; +0.20 Mya_1- MyD0 SVS; +Enddecay +# +Decay MyB+ +0.40 Myanti-D0 pi- pi+ pi+ PHSP; +0.40 Myanti-D0 Myrho0 pi+ PHSP; +0.20 Mya_1+ Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +0.3 K- pi+ PHSP; +0.3122 K- pi+ pi0 D_DALITZ; +## K 3pi (0.277*1.4 total) +0.1778 Mya_1+ K- SVS; +0.01722 MyK_1- pi+ SVS; +0.0525 Myanti-K*0 pi+ pi- PHSP; +0.02716 K- pi+ rho0 PHSP; +0.06468 K- pi+ pi+ pi- PHSP; +0.04844 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.3 K+ pi- PHSP; +0.3122 K+ pi- pi0 D_DALITZ; +## K 3pi (0.277*1.4 total) +0.1778 Mya_1- K+ SVS; +0.01722 MyK_1+ pi- SVS; +0.0525 MyK*0 pi- pi+ PHSP; +0.02716 K+ pi- rho0 PHSP; +0.06468 K+ pi- pi- pi+ PHSP; +0.04844 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/Bch_D0PiPiPi.dec b/BaBar_2014/Bch_D0PiPiPi.dec new file mode 100644 index 0000000..782d1dc --- /dev/null +++ b/BaBar_2014/Bch_D0PiPiPi.dec @@ -0,0 +1,56 @@ +######################################################### +# Decay: B- -> D0 (3pi)-; B+ -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1-; # +# \ # +# \__Kpi # +# # +# Author: Haiwen Zhao # +# Date: 04/26/2003 # +######################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB- +0.40 MyD0 pi+ pi- pi- PHSP; +0.40 MyD0 Myrho0 pi- PHSP; +0.20 Mya_1- MyD0 SVS; +Enddecay +# +Decay MyB+ +0.40 Myanti-D0 pi- pi+ pi+ PHSP; +0.40 Myanti-D0 Myrho0 pi+ PHSP; +0.20 Mya_1+ Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay + +End diff --git a/BaBar_2014/Bch_Dstar02pi.dec b/BaBar_2014/Bch_Dstar02pi.dec new file mode 100644 index 0000000..6daf9f5 --- /dev/null +++ b/BaBar_2014/Bch_Dstar02pi.dec @@ -0,0 +1,62 @@ +######################################################### +# Decay: B- -> D*0 (pi0pi-); B+ -> X; + cc # +# \ \ # +# \ \____rho-, pi0pi # +# \ # +# \__D0pi0, (D0->Kpi) # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myrho+ rho+ +Alias Myrho- rho- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB- +0.60 MyD*0 pi0 pi- PHSP; +0.40 Myrho- MyD*0 SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyB+ +0.60 Myanti-D*0 pi0 pi+ PHSP; +0.40 Myrho+ Myanti-D*0 SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myrho- +1.0 pi0 pi- VSS; +Enddecay +# +Decay Myrho+ +1.0 pi0 pi+ VSS; +Enddecay +End + + + + diff --git a/BaBar_2014/Bch_Dstar03pi.dec b/BaBar_2014/Bch_Dstar03pi.dec new file mode 100644 index 0000000..e4ad1c0 --- /dev/null +++ b/BaBar_2014/Bch_Dstar03pi.dec @@ -0,0 +1,116 @@ +######################################################### +# Decay: B- -> D*0 (3pi)-; B+ -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1-; # +# \ # +# \__D0pi0, (D0->Kpi, Kpipi0, Kpipipi) # +# # +# Author: Haiwen Zhao # +# Date: 05/01/2003 # +######################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB- +0.40 MyD*0 pi+ pi- pi- PHSP; +0.40 MyD*0 Myrho0 pi- PHSP; +0.20 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay MyB+ +0.40 Myanti-D*0 pi- pi+ pi+ PHSP; +0.40 Myanti-D*0 Myrho0 pi+ PHSP; +0.20 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.3 K- pi+ PHSP; +0.3122 K- pi+ pi0 D_DALITZ; +## K 3pi (0.277*1.4 total) +0.1778 Mya_1+ K- SVS; +0.01722 MyK_1- pi+ SVS; +0.0525 Myanti-K*0 pi+ pi- PHSP; +0.02716 K- pi+ rho0 PHSP; +0.06468 K- pi+ pi+ pi- PHSP; +0.04844 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.3 K+ pi- PHSP; +0.3122 K+ pi- pi0 D_DALITZ; +## K 3pi (0.277*1.4 total) +0.1778 Mya_1- K+ SVS; +0.01722 MyK_1+ pi- SVS; +0.0525 MyK*0 pi- pi+ PHSP; +0.02716 K+ pi- rho0 PHSP; +0.06468 K+ pi- pi- pi+ PHSP; +0.04844 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/Bch_Dstar0PiPiPi.dec b/BaBar_2014/Bch_Dstar0PiPiPi.dec new file mode 100644 index 0000000..5fab50e --- /dev/null +++ b/BaBar_2014/Bch_Dstar0PiPiPi.dec @@ -0,0 +1,70 @@ +######################################################### +# Decay: B- -> D*0 (3pi)-; B+ -> X; + cc # +# \ \ # +# \ \____pipipi, rho0pi, a1-; # +# \ # +# \__D0pi0, D0->Kpi # +# # +# Author: Haiwen Zhao # +# Date: 04/26/2003 # +######################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB- +0.40 MyD*0 pi+ pi- pi- PHSP; +0.40 MyD*0 Myrho0 pi- PHSP; +0.20 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay MyB+ +0.40 Myanti-D*0 pi- pi+ pi+ PHSP; +0.40 Myanti-D*0 Myrho0 pi+ PHSP; +0.20 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +# SVV_HELAMP for D* a1 taken from factorization. Recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0 K+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay + +End diff --git a/BaBar_2014/Bch_XKch_XTOJPsiOmega.dec b/BaBar_2014/Bch_XKch_XTOJPsiOmega.dec new file mode 100644 index 0000000..0719170 --- /dev/null +++ b/BaBar_2014/Bch_XKch_XTOJPsiOmega.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> X3870 K+ B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# # +# + charge conjugate # +# # +# # +# Author: Eric Eckhart # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/Bch_psi2s_chic12_gamma_brecococktail.dec b/BaBar_2014/Bch_psi2s_chic12_gamma_brecococktail.dec new file mode 100644 index 0000000..3209ba9 --- /dev/null +++ b/BaBar_2014/Bch_psi2s_chic12_gamma_brecococktail.dec @@ -0,0 +1,142 @@ +################################################################### +# B- --> psi2s K- B+ --> Breco Cocktail # +# | D*/D0 pi # +# | # +# |-->Chic1/2 gamma # +# # +# + cc # +# Dominique J. Mangeol +################################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mypsi(2S) psi(2S) +Alias My2B+ B+ +Alias My2B- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ My2B- VSS; +0.500 MyB- My2B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Mypsi(2S) K+ SVS; +Enddecay +# +Decay MyB- +1.000 Mypsi(2S) K- SVS; +Enddecay +# +Decay My2B+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay My2B- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay Mypsi(2S) +### original BR from DECAY.DEC rescaled to 1 +0.5527 gamma chi_c1 PHSP; +0.4473 gamma chi_c2 PHSP; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BchmD0KmKpimwsmads.dec b/BaBar_2014/BchmD0KmKpimwsmads.dec new file mode 100644 index 0000000..20c51f1 --- /dev/null +++ b/BaBar_2014/BchmD0KmKpimwsmads.dec @@ -0,0 +1,110 @@ +# +# $Id: Bch-D0K-Kpi-ws-ads.dec,v 1.1 2003/10/30 23:16:33 owen Exp $ +# +# O. Long / UCSB +# +# This decay file generates the two decay chains (B- CF with D0 DCS +# and B- DCS with D0bar CF) independently, so no interference between +# the amplitudes (i.e. no direct CPV). +# +# In the end, all that will be seen is B- --> (K+pi-) K- anyway, so +# you won't be able to distinguish the different decay chains (except +# with MC truth), which is the whole point of all of this. +# +# Assumed amplitudes +# +# B- --> D0 K- (CF) = A lambda^3 +# B- --> D0bar K- (DCS) = A lambda^3 |rho-ieta| (1/3) +# = A lambda^3 Ru / 3 +# +# where 1/3 is naive color suppression factor. +# +# +# D0 --> K- pi+ (CF) = 1 +# D0 --> K+ pi- (DCS) = lambda^2 +# +# +# A(B- --> D0 (K+pi-) K-) = A lambda^3 lambda^2 +# A(B- --> D0bar(K+pi-) K-) = A lambda^3 Ru / 3 +# +# +# Ratio of B- branching factions +# +# BF(D0bar K-) / BF(D0 K-) = ( Ru / 3 )^2 +# = ( 0.4 / 3 )^2 +# = 0.018 +# +# +# Ratio of D0 branching fractions +# +# BF(K+pi-) / BF(K-pi+) = lambda^4 +# = 0.0023 +# +# measured value = ( 0.000148 / 0.0038 ) +# = 0.0039 +# +# +# This means the relative rates will be +# +# BR( B- --> CF, D0 --> DCS ) / BR( B- --> DCS, D0bar --> CF ) = +# BR( B- --> D0(K+pi-) K- ) / BR( B- --> D0bar(K+pi-) K- ) = 0.0039 / 0.018 +# = 0.22 +# +# +# +Alias MyB+--CF B+ +Alias MyB+--DCS B+ +Alias MyB---CF B- +Alias MyB---DCS B- +Alias MyD0--CF D0 +Alias MyD0--DCS D0 +Alias Myanti-D0--CF anti-D0 +Alias Myanti-D0--DCS anti-D0 +# +# +# NB: The relative rates in the Upsilon(4S) decays below are for +# the WHOLE decay chain, since the whole decay chain is +# determined by how the B+/- decays. +# +Decay Upsilon(4S) +0.11 MyB+--CF B- VSS; +0.39 MyB+--DCS B- VSS; +0.11 MyB---CF B+ VSS; +0.39 MyB---DCS B+ VSS; +Enddecay +# +# +Decay MyB---CF +1.0 K- MyD0--DCS PHSP; +Enddecay +# +Decay MyB---DCS +1.0 K- Myanti-D0--CF PHSP; +Enddecay +# +Decay MyB+--CF +1.0 K+ Myanti-D0--DCS PHSP; +Enddecay +# +Decay MyB+--DCS +1.0 K+ MyD0--CF PHSP; +Enddecay +# +Decay MyD0--CF +1.0 K- pi+ PHSP; +Enddecay +# +Decay MyD0--DCS +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0--CF +1.0 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0--DCS +1.0 K- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoA0Kch_A0toJpsipi0_width45.dec b/BaBar_2014/BchtoA0Kch_A0toJpsipi0_width45.dec new file mode 100644 index 0000000..83c1c03 --- /dev/null +++ b/BaBar_2014/BchtoA0Kch_A0toJpsipi0_width45.dec @@ -0,0 +1,54 @@ +################################################################### +# B+ --> A0 K+ B- --> Generic xx # +# | # +# |-- With a width of 45 MeV # +# |-->J/psi pi0 # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 4.430 0.045 +ChangeMassMin dummy00_1 3.2 +ChangeMassMax dummy00_1 4.8 +Alias MyB+ B+ +Alias MyB- B- +Alias MyA0 dummy00_1 +Alias MyJpsi J/psi +Alias Mypi0 pi0 +Alias MyK+ K+ +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyA0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyA0 K- PHSP; +Enddecay +# +Decay MyA0 +1.000 MyJpsi Mypi0 PHSP; +Enddecay +# +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoAchKs_AchtoJpsipich_width45.dec b/BaBar_2014/BchtoAchKs_AchtoJpsipich_width45.dec new file mode 100644 index 0000000..646d308 --- /dev/null +++ b/BaBar_2014/BchtoAchKs_AchtoJpsipich_width45.dec @@ -0,0 +1,68 @@ +################################################################### +# Bch --> Ach Ks B- --> Generic xx # +# | # +# |-- With a width of 45 MeV # +# |-->J/psi pi+ , J/psi pi- # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy10_1 4.430 0.045 +Particle anti-dummy10_1 4.430 0.045 +# +ChangeMassMin dummy10_1 3.2 +ChangeMassMax dummy10_1 4.8 +# +ChangeMassMin anti-dummy10_1 3.2 +ChangeMassMax anti-dummy10_1 4.8 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyA+ dummy10_1 +Alias MyA- anti-dummy10_1 +Alias MyJpsi J/psi +Alias Mypi0 pi0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyA+ MyKs PHSP; +Enddecay +# +Decay MyB- +1.000 MyA- MyKs PHSP; +Enddecay +# +Decay MyA+ +1.000 MyJpsi pi+ PHSP; +Enddecay +# +Decay MyA- +1.000 MyJpsi pi- PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoY3915Kch_Y3915toJPsiOmega.dec b/BaBar_2014/BchtoY3915Kch_Y3915toJPsiOmega.dec new file mode 100644 index 0000000..a8f4fcf --- /dev/null +++ b/BaBar_2014/BchtoY3915Kch_Y3915toJPsiOmega.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> Y3915 K+ B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.915 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoY3915Kch_Y3915toJPsiOmega_wid_20MeV.dec b/BaBar_2014/BchtoY3915Kch_Y3915toJPsiOmega_wid_20MeV.dec new file mode 100644 index 0000000..221cd80 --- /dev/null +++ b/BaBar_2014/BchtoY3915Kch_Y3915toJPsiOmega_wid_20MeV.dec @@ -0,0 +1,53 @@ +################################################################### +# B+ --> Y3915 K+ B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# | the width of the Y(3915) is 20 MeV # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.915 0.02 +ChangeMassMin dummy00_1 3.6 +ChangeMassMax dummy00_1 4.3 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoY3925Kch_Y3925toJPsiOmega.dec b/BaBar_2014/BchtoY3925Kch_Y3925toJPsiOmega.dec new file mode 100644 index 0000000..df619f8 --- /dev/null +++ b/BaBar_2014/BchtoY3925Kch_Y3925toJPsiOmega.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> Y3925 K+ B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.925 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoY3925Kch_Y3925toJPsiOmega_wid_30MeV.dec b/BaBar_2014/BchtoY3925Kch_Y3925toJPsiOmega_wid_30MeV.dec new file mode 100644 index 0000000..d0d48ed --- /dev/null +++ b/BaBar_2014/BchtoY3925Kch_Y3925toJPsiOmega_wid_30MeV.dec @@ -0,0 +1,53 @@ +################################################################### +# B+ --> Y3925 K+ B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) Omega # +# | the width of the Y(3925) is 30 MeV # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.925 0.03 +ChangeMassMin dummy00_1 3.6 +ChangeMassMax dummy00_1 4.3 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyOmega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi omega PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoZ0Kch_Z0toPsi2Spi0_width45.dec b/BaBar_2014/BchtoZ0Kch_Z0toPsi2Spi0_width45.dec new file mode 100644 index 0000000..b3a3e76 --- /dev/null +++ b/BaBar_2014/BchtoZ0Kch_Z0toPsi2Spi0_width45.dec @@ -0,0 +1,61 @@ +################################################################### +# B+ --> Z0 K+ B- --> Generic xx # +# | # +# |-- With a width of 45 MeV # +# |-->psi(2S) pi0 # +# | # +# |--> e+e-, mu+mu-, Jpsi pi+ pi- # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 4.430 0.045 +ChangeMassMin dummy00_1 3.8 +ChangeMassMax dummy00_1 4.8 +Alias MyB+ B+ +Alias MyB- B- +Alias MyZ0 dummy00_1 +Alias Mypsi2S psi(2S) +Alias Mypi0 pi0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyZ0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyZ0 K- PHSP; +Enddecay +# +Decay MyZ0 +1.000 Mypsi2S Mypi0 PHSP; +Enddecay +# +Decay Mypsi2S +0.700 MyJpsi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- VLL; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/BchtoZchKs_ZchtoPsi2Spich_width45.dec b/BaBar_2014/BchtoZchKs_ZchtoPsi2Spich_width45.dec new file mode 100644 index 0000000..a494b28 --- /dev/null +++ b/BaBar_2014/BchtoZchKs_ZchtoPsi2Spich_width45.dec @@ -0,0 +1,77 @@ +################################################################### +# Bch --> Zch Ks B- --> Generic xx # +# | # +# |-- With a width of 45 MeV # +# |-->psi(2S) pi+ , psi(2S) pi- # +# | # +# |--> e+e-, mu+mu-, Jpsi pi+ pi- # +# | # +# |--> e+e-, mu+mu- # +# # +# + charge conjugate # +# # +# # +# Author: Arafat Gabareen Mokhtar (Colorado State University) # +# mokhtar@slac.stanford.edu # +################################################################### +# +# +# +# Alias particles for specific decays +# Particle +Particle dummy10_1 4.430 0.045 +Particle anti-dummy10_1 4.430 0.045 +# +ChangeMassMin dummy10_1 3.8 +ChangeMassMax dummy10_1 4.8 +# +ChangeMassMin anti-dummy10_1 3.8 +ChangeMassMax anti-dummy10_1 4.8 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyZ+ dummy10_1 +Alias MyZ- anti-dummy10_1 +Alias Mypsi2S psi(2S) +Alias Mypi0 pi0 +Alias MyJpsi J/psi +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyZ+ MyKs PHSP; +Enddecay +# +Decay MyB- +1.000 MyZ- MyKs PHSP; +Enddecay +# +Decay MyZ+ +1.000 Mypsi2S pi+ PHSP; +Enddecay +# +Decay MyZ- +1.000 Mypsi2S pi- PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mypsi2S +0.700 MyJpsi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- VLL; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_2Kpi.dec b/BaBar_2014/BpBm_2Kpi.dec new file mode 100644 index 0000000..e7a86c7 --- /dev/null +++ b/BaBar_2014/BpBm_2Kpi.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> K+ K- pi+ (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> K+ K- pi+ (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K- pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 K- K+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_3K.dec b/BaBar_2014/BpBm_3K.dec new file mode 100644 index 0000000..dff5eb9 --- /dev/null +++ b/BaBar_2014/BpBm_3K.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B+ -> K+ K+ K- (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B + -> K+ K+ K- (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K+ K- PHSP; +Enddecay +# +Decay MyB- +1.000 K- K- K+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_3pi.dec b/BaBar_2014/BpBm_3pi.dec new file mode 100644 index 0000000..d8cb130 --- /dev/null +++ b/BaBar_2014/BpBm_3pi.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> pi+ pi+ pi- (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B + -> pi+ pi+ pi- (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 pi- pi- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_3pi_CP.dec b/BaBar_2014/BpBm_3pi_CP.dec new file mode 100644 index 0000000..13d41fa --- /dev/null +++ b/BaBar_2014/BpBm_3pi_CP.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> pi+ pi+ pi- + c.c. # +# with interference between the rho # +# resonances # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> pi+ pi+ pi- with +# interference between the rho resonances using +# the CB3PI-MPP model +# +Define alpha 1.365 +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi+ pi- CB3PI-MPP alpha; +Enddecay +# +Decay MyB- +1.000 pi- pi- pi+ CB3PI-MPP alpha; +Enddecay +End diff --git a/BaBar_2014/BpBm_BrecoCocktail_Kpnunu.dec b/BaBar_2014/BpBm_BrecoCocktail_Kpnunu.dec new file mode 100644 index 0000000..7a8d0a3 --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_Kpnunu.dec @@ -0,0 +1,136 @@ +################################################### +# # +# Decay: B+ -> tau nu B- ->BReco Cocktail # +# # +# # +# Author: S. Robertson # +# 27 April, 2001 # +# # +## The Breco cocktail for charged B mesons. # +## Mixed by Jan Stark (Cut and paste from existing# +## files, plus appropriate weighting). # +################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +# force other B to always decay to K+ nu nu +# +Decay B+ +1.0000 K+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay B- +1.0000 K- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_BrecoCocktail_Kstarpnunu.dec b/BaBar_2014/BpBm_BrecoCocktail_Kstarpnunu.dec new file mode 100644 index 0000000..7b256b5 --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_Kstarpnunu.dec @@ -0,0 +1,141 @@ +################################################################### +# B+ --> K*+ nu nubar, B- --> D0(*) X # +# K*+ --> Anything # +# # +# # +# Author: T. Cuhadar-Donszelmann April 14,2003 # +# Modified from B+B-_BrecoCocktail_K+nunu.dec # +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +# +Decay B+ +1.0000 K*+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay B- +1.0000 K*- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_e.dec b/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_e.dec new file mode 100644 index 0000000..69e80f1 --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_e.dec @@ -0,0 +1,145 @@ +## Adjusted for B->d* tau nu search by michael mazur +## The Breco cocktail for charged B mesons. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyTau+ tau+ +Alias MyTau- tau- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +# force signal B to always decay to d* tau nu_tau +# +Decay B- +1.0000 D*0 MyTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay B+ +1.0000 anti-D*0 MyTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay MyTau+ +1.00 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay MyTau- +1.00 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +# +# Breco cocktail: +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + diff --git a/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_excl.dec b/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_excl.dec new file mode 100644 index 0000000..9cdda7d --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_excl.dec @@ -0,0 +1,252 @@ +## Adjusted for B->d* tau nu search by michael mazur +## The Breco cocktail for charged B mesons. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyTau+ tau+ +Alias MyTau- tau- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias SigD*0 D*0 +Alias Siganti-D*0 anti-D*0 +Alias SigD0 D0 +Alias Siganti-D0 anti-D0 +Alias SigK_1- K_1- +Alias SigK_1+ K_1+ +Alias SigK*0 K*0 +Alias Siganti-K*0 anti-K*0 +Alias Sigomega omega +Alias SigK*+ K*+ +Alias SigK*- K*- +Alias SigK*+S K*+ +Alias SigK*-S K*- +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +# force signal B to always decay to d* tau nu_tau +# +Decay B- +1.0000 SigD*0 MyTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay B+ +1.0000 Siganti-D*0 MyTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay MyTau+ +0.50 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +0.50 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay MyTau- +0.50 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.50 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD*0 +0.6190 SigD0 pi0 VSS; +0.3810 SigD0 gamma VSP_PWAVE; +Enddecay +# +Decay Siganti-D*0 +0.6190 Siganti-D0 pi0 VSS; +0.3810 Siganti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay SigD0 +0.0383 K- pi+ PHSP; +0.1390 K- pi+ pi0 D_DALITZ; +0.0060 K- pi+ rho0 PHSP; +0.0114 Siganti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0360 Mya_1+ K- SVS; +0.0175 Siganti-K*0 pi+ pi- PHSP; +0.0067 SigK_1- pi+ SVS; +0.0174 K- pi+ pi+ pi- PHSP; +0.0185 Myanti-K0 pi+ pi- D_DALITZ; +0.0064 Sigomega Myanti-K0 SVS; +0.0342 SigK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0029 Myanti-K0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Siganti-D0 +0.0383 K+ pi- PHSP; +0.1390 K+ pi- pi0 D_DALITZ; +0.0060 K+ pi- rho0 PHSP; +0.0146 SigK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0730 Mya_1- K+ SVS; +0.0225 SigK*0 pi+ pi- PHSP; +0.0107 SigK_1+ pi- SVS; +0.0174 K+ pi- pi+ pi- PHSP; +0.0540 MyK0 pi+ pi- D_DALITZ; +0.0210 Sigomega MyK0 SVS; +0.0610 SigK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0085 MyK0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay SigK*0 +0.6657 K+ pi- VSS; +0.1140 MyK0 pi0 VSS; +Enddecay +# +Decay Siganti-K*0 +0.6657 K- pi+ VSS; +0.1140 Myanti-K0 pi0 VSS; +Enddecay +# +Decay SigK*+ +0.2284 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +# +Decay SigK*- +0.2284 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay SigK*+S +1.0 MyK0 pi+ VSS; +Enddecay +# +Decay SigK*-S +1.0 Myanti-K0 pi- VSS; +Enddecay +# +Decay SigK_1+ +0.0961 rho+ MyK0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0832 SigK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0122 SigK*+S pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0024 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi+ pi- PHSP; +0.0427 MyK0 pi+ pi0 PHSP; +Enddecay +# +Decay SigK_1- +0.0961 rho- Myanti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0832 Siganti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0122 SigK*-S pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0024 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +0.0427 Myanti-K0 pi- pi0 PHSP; +Enddecay +# +Decay Sigomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# Breco cocktail: +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + diff --git a/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_mu.dec b/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_mu.dec new file mode 100644 index 0000000..cf566b0 --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_dstartaunu_mu.dec @@ -0,0 +1,145 @@ +## Adjusted for B->d* tau nu search by michael mazur +## The Breco cocktail for charged B mesons. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyTau+ tau+ +Alias MyTau- tau- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +# force signal B to always decay to d* tau nu_tau +# +Decay B- +1.0000 D*0 MyTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay B+ +1.0000 anti-D*0 MyTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay MyTau+ +1.00 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay MyTau- +1.00 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +# Breco cocktail: +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + diff --git a/BaBar_2014/BpBm_BrecoCocktail_dtaunu_e.dec b/BaBar_2014/BpBm_BrecoCocktail_dtaunu_e.dec new file mode 100644 index 0000000..ccd837a --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_dtaunu_e.dec @@ -0,0 +1,145 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for charged B mesons. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyTau+ tau+ +Alias MyTau- tau- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +# force signal B to always decay to d tau nu_tau +# +Decay B- +1.0000 D0 MyTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay B+ +1.0000 anti-D0 MyTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay MyTau+ +1.00 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay MyTau- +1.00 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +# +# +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + diff --git a/BaBar_2014/BpBm_BrecoCocktail_dtaunu_excl.dec b/BaBar_2014/BpBm_BrecoCocktail_dtaunu_excl.dec new file mode 100644 index 0000000..ce1ba4b --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_dtaunu_excl.dec @@ -0,0 +1,240 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for charged B mesons. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyTau+ tau+ +Alias MyTau- tau- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias SigD0 D0 +Alias Siganti-D0 anti-D0 +Alias SigK_1- K_1- +Alias SigK_1+ K_1+ +Alias SigK*0 K*0 +Alias Siganti-K*0 anti-K*0 +Alias Sigomega omega +Alias SigK*+ K*+ +Alias SigK*- K*- +Alias SigK*+S K*+ +Alias SigK*-S K*- +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +# force signal B to always decay to d* tau nu_tau +# +Decay B- +1.0000 SigD0 MyTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay B+ +1.0000 Siganti-D0 MyTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay MyTau+ +0.50 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +0.50 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay MyTau- +0.50 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.50 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay SigD0 +0.0383 K- pi+ PHSP; +0.1390 K- pi+ pi0 D_DALITZ; +0.0060 K- pi+ rho0 PHSP; +0.0114 Siganti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0360 Mya_1+ K- SVS; +0.0175 Siganti-K*0 pi+ pi- PHSP; +0.0067 SigK_1- pi+ SVS; +0.0174 K- pi+ pi+ pi- PHSP; +0.0185 Myanti-K0 pi+ pi- D_DALITZ; +0.0064 Sigomega Myanti-K0 SVS; +0.0342 SigK*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0029 Myanti-K0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Siganti-D0 +0.0383 K+ pi- PHSP; +0.1390 K+ pi- pi0 D_DALITZ; +0.0060 K+ pi- rho0 PHSP; +0.0146 SigK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0730 Mya_1- K+ SVS; +0.0225 SigK*0 pi+ pi- PHSP; +0.0107 SigK_1+ pi- SVS; +0.0174 K+ pi- pi+ pi- PHSP; +0.0540 MyK0 pi+ pi- D_DALITZ; +0.0210 Sigomega MyK0 SVS; +0.0610 SigK*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0085 MyK0 pi+ pi- pi0 PHSP; +Enddecay +# +Decay SigK*0 +0.6657 K+ pi- VSS; +0.1140 MyK0 pi0 VSS; +Enddecay +# +Decay Siganti-K*0 +0.6657 K- pi+ VSS; +0.1140 Myanti-K0 pi0 VSS; +Enddecay +# +Decay SigK*+ +0.2284 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +# +Decay SigK*- +0.2284 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay SigK*+S +1.0 MyK0 pi+ VSS; +Enddecay +# +Decay SigK*-S +1.0 Myanti-K0 pi- VSS; +Enddecay +# +Decay SigK_1+ +0.0961 rho+ MyK0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0832 SigK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0122 SigK*+S pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0024 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi+ pi- PHSP; +0.0427 MyK0 pi+ pi0 PHSP; +Enddecay +# +Decay SigK_1- +0.0961 rho- Myanti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0832 Siganti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0122 SigK*-S pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0024 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +0.0427 Myanti-K0 pi- pi0 PHSP; +Enddecay +# +Decay Sigomega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# Breco cocktail: +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + diff --git a/BaBar_2014/BpBm_BrecoCocktail_dtaunu_mu.dec b/BaBar_2014/BpBm_BrecoCocktail_dtaunu_mu.dec new file mode 100644 index 0000000..cfb632d --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_dtaunu_mu.dec @@ -0,0 +1,145 @@ +## Adjusted for B->d tau nu search by michael mazur +## The Breco cocktail for charged B mesons. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyTau+ tau+ +Alias MyTau- tau- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +# force signal B to always decay to d tau nu_tau +# +Decay B- +1.0000 D0 MyTau- anti-nu_tau PHOTOS ISGW2; +Enddecay +# +Decay B+ +1.0000 anti-D0 MyTau+ nu_tau PHOTOS ISGW2; +Enddecay +# +Decay MyTau+ +1.00 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +# +Decay MyTau- +1.00 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +# +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + diff --git a/BaBar_2014/BpBm_BrecoCocktail_enu.dec b/BaBar_2014/BpBm_BrecoCocktail_enu.dec new file mode 100644 index 0000000..d4b975e --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_enu.dec @@ -0,0 +1,136 @@ +################################################### +# # +# Decay: B+ -> e nu B- ->BReco Cocktail # +# # +# # +# Author: S.Robertson # +# 14 April 2003 # +# # +## The Breco cocktail for charged B mesons. # +## Mixed by Jan Stark (Cut and paste from existing# +## files, plus appropriate weighting). # +################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +# force other B to always decay to e nu_e +# +Decay B- +1.0000 e- anti-nu_e PHOTOS SLN; +Enddecay +# +Decay B+ +1.0000 e+ nu_e PHOTOS SLN; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_BrecoCocktail_munu.dec b/BaBar_2014/BpBm_BrecoCocktail_munu.dec new file mode 100644 index 0000000..744094a --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_munu.dec @@ -0,0 +1,136 @@ +################################################### +# # +# Decay: B+ -> mu nu B- ->BReco Cocktail # +# # +# # +# Author: T. Hrynova # +# 6 Feb 2003 # +# # +## The Breco cocktail for charged B mesons. # +## Mixed by Jan Stark (Cut and paste from existing# +## files, plus appropriate weighting). # +################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +# force other B to always decay to mu nu_mu +# +Decay B- +1.0000 mu- anti-nu_mu PHOTOS SLN; +Enddecay +# +Decay B+ +1.0000 mu+ nu_mu PHOTOS SLN; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_BrecoCocktail_pipnunu.dec b/BaBar_2014/BpBm_BrecoCocktail_pipnunu.dec new file mode 100644 index 0000000..0590dab --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_pipnunu.dec @@ -0,0 +1,136 @@ +################################################### +# # +# Decay: B+ -> pi+ nu nu B- ->BReco Cocktail # +# # +# # +# Author: S. Robertson # +# 27 April, 2001 # +# # +## The Breco cocktail for charged B mesons. # +## Mixed by Jan Stark (Cut and paste from existing# +## files, plus appropriate weighting). # +################################################### +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +# force other B to always decay to pi+ nu nu +# +Decay B+ +1.0000 pi+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay B- +1.0000 pi- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_BrecoCocktail_taunu.dec b/BaBar_2014/BpBm_BrecoCocktail_taunu.dec new file mode 100644 index 0000000..164aecd --- /dev/null +++ b/BaBar_2014/BpBm_BrecoCocktail_taunu.dec @@ -0,0 +1,129 @@ +## Adjusted for B->taunu search by Tetiana Hryn'ova +## The Breco cocktail for charged B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +# force myB to always decay to tau nu_tau +# +Decay B- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +Decay B+ +1.0000 tau+ nu_tau SLN; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Breco_ColSup_Dstar0rho_cocktail.dec b/BaBar_2014/BpBm_Breco_ColSup_Dstar0rho_cocktail.dec new file mode 100644 index 0000000..e22895c --- /dev/null +++ b/BaBar_2014/BpBm_Breco_ColSup_Dstar0rho_cocktail.dec @@ -0,0 +1,130 @@ +## The evil Breco cocktail for charged B mesons decaying +## to D(*)0 rho+ only modes +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). +## ReMixed by Vincent Tisserand + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +# D* rho HELAMP parameters taken from ICHEP 98-852. +# beware that the Amplitude was wrong in the previous version +# V.Tisserand 12/11/2002 +1.0000 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.932 0 0.283 1.13; +Enddecay +# +Decay MyB- +# D* rho HELAMP parameters taken from ICHEP 98-852. +1.0000 MyD*0 rho- SVV_HELAMP 0.283 1.13 0.932 0 0.228 0.95; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Breco_ColSup_cocktail.dec b/BaBar_2014/BpBm_Breco_ColSup_cocktail.dec new file mode 100644 index 0000000..5e251d2 --- /dev/null +++ b/BaBar_2014/BpBm_Breco_ColSup_cocktail.dec @@ -0,0 +1,141 @@ +## The evil Breco cocktail for charged B mesons decaying +## to D(*)0 rho+/a1+ only modes +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). +## ReMixed by Vincent Tisserand (Cut and paste from existing files, plus +## appropriate reweighting for D(*)O a1- + add the a1- to rho- pi0 decays). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.253 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +# beware that the Amplitude was wrong in the previous version +# V.Tisserand 12/11/2002 +0.293 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.932 0 0.283 1.13; +0.095 a_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.359 Myanti-D*0 a_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyB- +0.253 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.293 MyD*0 rho- SVV_HELAMP 0.283 1.13 0.932 0 0.228 0.95; +0.095 a_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.359 MyD*0 a_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Breco_ColSup_rho_cocktail.dec b/BaBar_2014/BpBm_Breco_ColSup_rho_cocktail.dec new file mode 100644 index 0000000..4c08ed1 --- /dev/null +++ b/BaBar_2014/BpBm_Breco_ColSup_rho_cocktail.dec @@ -0,0 +1,132 @@ +## The evil Breco cocktail for charged B mesons decaying +## to D(*)0 rho+ only modes +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). +## ReMixed by Vincent Tisserand + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.53633 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +# beware that the Amplitude was wrong in the previous version +# V.Tisserand 12/11/2002 +0.46367 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.932 0 0.283 1.13; +Enddecay +# +Decay MyB- +0.53633 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.46367 MyD*0 rho- SVV_HELAMP 0.283 1.13 0.932 0 0.228 0.95; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Breco_DpipDstarpi_cocktail.dec b/BaBar_2014/BpBm_Breco_DpipDstarpi_cocktail.dec new file mode 100644 index 0000000..038f685 --- /dev/null +++ b/BaBar_2014/BpBm_Breco_DpipDstarpi_cocktail.dec @@ -0,0 +1,118 @@ +## The Breco cocktail for charged B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.535 Myanti-D0 pi+ PHSP; +0.465 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.535 MyD0 pi- PHSP; +0.465 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Breco_Drhoa1_cocktail.dec b/BaBar_2014/BpBm_Breco_Drhoa1_cocktail.dec new file mode 100644 index 0000000..7336d34 --- /dev/null +++ b/BaBar_2014/BpBm_Breco_Drhoa1_cocktail.dec @@ -0,0 +1,154 @@ +## The evil Breco cocktail for charged B mesons decaying +## to D(*)0 rho+/a1+/(some 4pi)+. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Myrho(2S)+ rho(2S)+ +Alias Myrho(2S)- rho(2S)- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.215 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)+ Myanti-D0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 Myanti-D*0 Myrho(2S)+ SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 Myanti-D*0 pi- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +0.215 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)- MyD0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 MyD*0 Myrho(2S)- SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 MyD*0 pi+ pi- pi- pi0 PHSP; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +Decay Myrho(2S)+ +1.0000 MyOtheromega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho(2S)- +1.0000 MyOtheromega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Brecorhoa1Cocktail_Knunu.dec b/BaBar_2014/BpBm_Brecorhoa1Cocktail_Knunu.dec new file mode 100644 index 0000000..843a784 --- /dev/null +++ b/BaBar_2014/BpBm_Brecorhoa1Cocktail_Knunu.dec @@ -0,0 +1,164 @@ +## The evil Breco cocktail for charged B mesons decaying +## to D(*)0 rho+/a1+/(some 4pi)+ with other B decaying into K nu nu. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). Adjusted for K nunu search by Tetiana Hryn'ova. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Myrho(2S)+ rho(2S)+ +Alias Myrho(2S)- rho(2S)- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.215 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)+ Myanti-D0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 Myanti-D*0 Myrho(2S)+ SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 Myanti-D*0 pi- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +0.215 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)- MyD0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 MyD*0 Myrho(2S)- SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 MyD*0 pi+ pi- pi- pi0 PHSP; +Enddecay +# +# force other B to always decay to K+ nu nu +# +Decay B+ +1.0000 K+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay B- +1.0000 K- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +Decay Myrho(2S)+ +1.0000 MyOtheromega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho(2S)- +1.0000 MyOtheromega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Brecorhoa1Cocktail_Kstarpnunu.dec b/BaBar_2014/BpBm_Brecorhoa1Cocktail_Kstarpnunu.dec new file mode 100644 index 0000000..daade95 --- /dev/null +++ b/BaBar_2014/BpBm_Brecorhoa1Cocktail_Kstarpnunu.dec @@ -0,0 +1,171 @@ +################################################################### +# B+ --> K*+ nu nubar, B- --> D0(*) rho/a1 # +# K*+ --> Anything # +# # +# # +# Author: T. Cuhadar-Donszelmann April 14,2003 # +# Modified from B+B-_Brecorhoa1Cocktail_Knunu.dec # +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Myrho(2S)+ rho(2S)+ +Alias Myrho(2S)- rho(2S)- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.215 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)+ Myanti-D0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 Myanti-D*0 Myrho(2S)+ SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 Myanti-D*0 pi- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +0.215 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)- MyD0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 MyD*0 Myrho(2S)- SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 MyD*0 pi+ pi- pi- pi0 PHSP; +Enddecay +# +# +Decay B+ +1.0000 K*+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay B- +1.0000 K*- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +Decay Myrho(2S)+ +1.0000 MyOtheromega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho(2S)- +1.0000 MyOtheromega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Brecorhoa1Cocktail_enu.dec b/BaBar_2014/BpBm_Brecorhoa1Cocktail_enu.dec new file mode 100644 index 0000000..d3571e2 --- /dev/null +++ b/BaBar_2014/BpBm_Brecorhoa1Cocktail_enu.dec @@ -0,0 +1,173 @@ +####################################################### +# # +# Decay: B+ -> e nu B- ->BRecoRhoA1 Cocktail # +# # +# # +# Author: S. Robertson # +# 14 April 2003 # +# # +# The Breco cocktail for charged B mesons decaying to # +## to D(*)0 rho+/a1+/(some 4pi)+. # +## Mixed by Jan Stark (Cut and paste from existing # +## files, plus appropriate weighting). # +####################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Myrho(2S)+ rho(2S)+ +Alias Myrho(2S)- rho(2S)- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.215 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)+ Myanti-D0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 Myanti-D*0 Myrho(2S)+ SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 Myanti-D*0 pi- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +0.215 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)- MyD0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 MyD*0 Myrho(2S)- SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 MyD*0 pi+ pi- pi- pi0 PHSP; +Enddecay +# +# force other B to always decay to e nu_e +# +Decay B- +1.0000 e- anti-nu_e PHOTOS SLN; +Enddecay +# +Decay B+ +1.0000 e+ nu_e PHOTOS SLN; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +Decay Myrho(2S)+ +1.0000 MyOtheromega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho(2S)- +1.0000 MyOtheromega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Brecorhoa1Cocktail_munu.dec b/BaBar_2014/BpBm_Brecorhoa1Cocktail_munu.dec new file mode 100644 index 0000000..757fdbe --- /dev/null +++ b/BaBar_2014/BpBm_Brecorhoa1Cocktail_munu.dec @@ -0,0 +1,173 @@ +####################################################### +# # +# Decay: B+ -> mu nu B- ->BRecoRhoA1 Cocktail # +# # +# # +# Author: T. Hrynova # +# 6 Feb 2003 # +# # +# The Breco cocktail for charged B mesons decaying to # +## to D(*)0 rho+/a1+/(some 4pi)+. # +## Mixed by Jan Stark (Cut and paste from existing # +## files, plus appropriate weighting). # +####################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Myrho(2S)+ rho(2S)+ +Alias Myrho(2S)- rho(2S)- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.215 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)+ Myanti-D0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 Myanti-D*0 Myrho(2S)+ SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 Myanti-D*0 pi- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +0.215 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)- MyD0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 MyD*0 Myrho(2S)- SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 MyD*0 pi+ pi- pi- pi0 PHSP; +Enddecay +# +# force other B to always decay to mu nu_mu +# +Decay B- +1.0000 mu- anti-nu_mu PHOTOS SLN; +Enddecay +# +Decay B+ +1.0000 mu+ nu_mu PHOTOS SLN; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +Decay Myrho(2S)+ +1.0000 MyOtheromega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho(2S)- +1.0000 MyOtheromega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Brecorhoa1Cocktail_pipnunu.dec b/BaBar_2014/BpBm_Brecorhoa1Cocktail_pipnunu.dec new file mode 100644 index 0000000..5f670e5 --- /dev/null +++ b/BaBar_2014/BpBm_Brecorhoa1Cocktail_pipnunu.dec @@ -0,0 +1,164 @@ +## The evil Breco cocktail for charged B mesons decaying +## to D(*)0 rho+/a1+/(some 4pi)+ with other B decaying into pi+ nu nu. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). Adjusted for pi+ nunu search by Steve Robertson. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Myrho(2S)+ rho(2S)+ +Alias Myrho(2S)- rho(2S)- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.215 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)+ Myanti-D0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 Myanti-D*0 Myrho(2S)+ SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 Myanti-D*0 pi- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +0.215 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)- MyD0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 MyD*0 Myrho(2S)- SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 MyD*0 pi+ pi- pi- pi0 PHSP; +Enddecay +# +# force other B to always decay to pi+ nu nu +# +Decay B+ +1.0000 pi+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay B- +1.0000 pi- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +Decay Myrho(2S)+ +1.0000 MyOtheromega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho(2S)- +1.0000 MyOtheromega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Brecorhoa1Cocktail_taunu.dec b/BaBar_2014/BpBm_Brecorhoa1Cocktail_taunu.dec new file mode 100644 index 0000000..d6230ac --- /dev/null +++ b/BaBar_2014/BpBm_Brecorhoa1Cocktail_taunu.dec @@ -0,0 +1,165 @@ +## The evil Breco cocktail for charged B mesons decaying +## to D(*)0 rho+/a1+/(some 4pi)+. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyOtheromega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Myrho(2S)+ rho(2S)+ +Alias Myrho(2S)- rho(2S)- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.215 rho+ Myanti-D0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 Myanti-D*0 rho+ SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1+ Myanti-D0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)+ Myanti-D0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 Myanti-D*0 Myrho(2S)+ SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 Myanti-D*0 pi- pi+ pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +0.215 rho- MyD0 SVS; +# D* rho HELAMP parameters taken from ICHEP 98-852. +0.249 MyD*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.039 Mya_1- MyD0 SVS; +# SVV_HELAMP from factorization, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: +0.150 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +0.058 Myrho(2S)- MyD0 SVS; +# HELAMP parameters taken from ICHEP 00-78. +0.064 MyD*0 Myrho(2S)- SVV_HELAMP 0.430 0.0 0.794 0.0 0.430 0.0; +0.225 MyD*0 pi+ pi- pi- pi0 PHSP; +Enddecay +# +# +# force myB to always decay to tau nu_tau +# +Decay B- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +Decay B+ +1.0000 tau+ nu_tau SLN; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +Decay Myrho(2S)+ +1.0000 MyOtheromega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho(2S)- +1.0000 MyOtheromega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyOtheromega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +End diff --git a/BaBar_2014/BpBm_Chi0cK.dec b/BaBar_2014/BpBm_Chi0cK.dec new file mode 100644 index 0000000..79cafd0 --- /dev/null +++ b/BaBar_2014/BpBm_Chi0cK.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B- -> chic(0) K-, B+ -> X # +# |-> Jpsi gamma # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 19/11/03 # +# +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c0 chi_c0 +Alias MyJpsi J/psi +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Mychi_c0 K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 Mychi_c0 K- PHSP; +Enddecay + +Decay Mychi_c0 +1.0 gamma MyJpsi PHSP; +Enddecay + +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_Chi0cK_All.dec b/BaBar_2014/BpBm_Chi0cK_All.dec new file mode 100644 index 0000000..fe48113 --- /dev/null +++ b/BaBar_2014/BpBm_Chi0cK_All.dec @@ -0,0 +1,34 @@ +############################################################ +# # +# Decay: B- -> chic(0) K-, B+ -> X # +# |-> X # +# # +# # +# + cc # +# # +# Author: R. Faccini # +# Created: 14/Aug/01 # +# Mail: rfaccini@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 chi_c0 K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 chi_c0 K- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_Chi0cKstar_K.dec b/BaBar_2014/BpBm_Chi0cKstar_K.dec new file mode 100644 index 0000000..bd37f5c --- /dev/null +++ b/BaBar_2014/BpBm_Chi0cKstar_K.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Decay: B- -> chic(0) K*-, B+ -> X # +# |-> Jpsi gamma K pi0 # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 19/11/03 # +# +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c0 chi_c0 +Alias MyJpsi J/psi +Alias MyKstar- K*- +Alias MyKstar+ K*+ +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Mychi_c0 MyKstar+ PHSP; +Enddecay +# +Decay MyB- +1.0000 Mychi_c0 MyKstar- PHSP; +Enddecay + +Decay Mychi_c0 +1.0 gamma MyJpsi PHSP; +Enddecay + +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_Chi0cKstar_KS.dec b/BaBar_2014/BpBm_Chi0cKstar_KS.dec new file mode 100644 index 0000000..61f35cc --- /dev/null +++ b/BaBar_2014/BpBm_Chi0cKstar_KS.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B- -> chic(0) K*-, B+ -> X # +# |-> Jpsi gamma KS(pi+pi-) pi # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 19/11/03 # +# +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c0 chi_c0 +Alias MyJpsi J/psi +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Mychi_c0 MyKstar+ PHSP; +Enddecay +# +Decay MyB- +1.0000 Mychi_c0 MyKstar- PHSP; +Enddecay + +Decay Mychi_c0 +1.0 gamma MyJpsi PHSP; +Enddecay + +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_Chi0pi.dec b/BaBar_2014/BpBm_Chi0pi.dec new file mode 100644 index 0000000..fa9d634 --- /dev/null +++ b/BaBar_2014/BpBm_Chi0pi.dec @@ -0,0 +1,39 @@ +############################################################ +# Decay: B- -> chic(0) pi-, B+ -> X # +# |-> pi+ pi- # +# # +# + cc # +# # +# Author: Akram Khan # +# Created: 26/July/02 # +# Mail: akram@SLAC.STANFORD.EDU # +# Corrected chi_c0 -> MyChi0 use by John Back # +# (28 Jan 2004, jback@slac.stanford.edu) # +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyChi0 chi_c0 +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyChi0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyChi0 pi- PHSP; +Enddecay +# +Decay MyChi0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_Chi1cK.dec b/BaBar_2014/BpBm_Chi1cK.dec new file mode 100644 index 0000000..55bcfef --- /dev/null +++ b/BaBar_2014/BpBm_Chi1cK.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B- -> chi1c K-, B+ -> X # +# | # +# | # +# | # +# J/psi gam # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: R. Faccini RFACCINI@SLAC.STANFORD.EDU # +# Created: 11 Mar 00 # +############################################################ +# +# +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Mychi_c1 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 Mychi_c1 K- SVS; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Chi1cK_All.dec b/BaBar_2014/BpBm_Chi1cK_All.dec new file mode 100644 index 0000000..83e7a40 --- /dev/null +++ b/BaBar_2014/BpBm_Chi1cK_All.dec @@ -0,0 +1,34 @@ +############################################################ +# # +# Decay: B- -> Chic(1) K-, B+ -> X # +# |-> X # +# # +# # +# + cc # +# # +# Author: R.Faccini # +# Created: 14/Aug/01 # +# Mail: RFACCINI@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 chi_c1 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 chi_c1 K- SVS; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_Chi1cK_E1.dec b/BaBar_2014/BpBm_Chi1cK_E1.dec new file mode 100644 index 0000000..beb05ce --- /dev/null +++ b/BaBar_2014/BpBm_Chi1cK_E1.dec @@ -0,0 +1,69 @@ +############################################################ +# # +# Decay: B- -> chi1c K-, B+ -> X # +# | # +# | # +# | # +# J/psi gam # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: R. Faccini RFACCINI@SLAC.STANFORD.EDU # +# Created: 11 Mar 00 # +############################################################ +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Alias Mychi_c1 chi_c1 +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Mychi_c1 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 Mychi_c1 K- SVS; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay + +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Chi1cKstar_KS_sp3.dec b/BaBar_2014/BpBm_Chi1cKstar_KS_sp3.dec new file mode 100644 index 0000000..00b92c8 --- /dev/null +++ b/BaBar_2014/BpBm_Chi1cKstar_KS_sp3.dec @@ -0,0 +1,100 @@ +################################################################### +# B- --> chi1c K*- B+ --> Generic # +# | | # +# | |-->K0s pi- # +# | | # +# | |--> pi+pi- # +# | # +# |--> J/psi gam (100%) # +# | | # +# | |-->mu+mu-/e+e- # +# + cc # +# # +# Author: S. T'Jampens (04/25/2000) TJAMPENS@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +################################################################### +#Define the helicity amplitudes (cleo values of J/Psi K*0) +# +# modulus +# +Define Hplus 0.68284 +Define Hzero 0.72111 +Define Hminus 0.11716 +# +# phases +# +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c1 chi_c1 +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mychi_c1 MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyB+ +1.000 Mychi_c1 MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Chi1cKstar_Km_sp3.dec b/BaBar_2014/BpBm_Chi1cKstar_Km_sp3.dec new file mode 100644 index 0000000..94a48c5 --- /dev/null +++ b/BaBar_2014/BpBm_Chi1cKstar_Km_sp3.dec @@ -0,0 +1,94 @@ +################################################################### +# B- --> chi1c K*- B0 --> Generic # +# | | # +# | |-->K- pi0 # +# | # +# |-->J/psi gam (100%) # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: S. T'Jampens (04/25/2000) TJAMPENS@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +################################################################### +#Define the helicity amplitudes (cleo values of J/Psi K*0) +# +# modulus +# +Define Hplus 0.68284 +Define Hzero 0.72111 +Define Hminus 0.11716 +# +# phases +# +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c1 chi_c1 +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mychi_c1 MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyB+ +1.000 Mychi_c1 MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Chic1Kstar_KpPi0_RunIpIIPol.dec b/BaBar_2014/BpBm_Chic1Kstar_KpPi0_RunIpIIPol.dec new file mode 100644 index 0000000..777d350 --- /dev/null +++ b/BaBar_2014/BpBm_Chic1Kstar_KpPi0_RunIpIIPol.dec @@ -0,0 +1,98 @@ +################################################################### +# B- --> chi1c K*- B0 --> Generic # +# | | # +# | |-->K- pi0 # +# | # +# |-->J/psi gam (100%) # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: S. T'Jampens (04/25/2000) TJAMPENS@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +# Copied from B+B-_Chi1cKstar_K-_sp3.dec and updated with # +# runI+II polarisation. Marc Verderi, Philippe Grenier 01 Jun 2004# +################################################################### +# +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: (J/PsiK* amplitudes) +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c1 chi_c1 +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mychi_c1 MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyB+ +1.000 Mychi_c1 MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Chic1Kstar_KsPip_RunIpIIPol.dec b/BaBar_2014/BpBm_Chic1Kstar_KsPip_RunIpIIPol.dec new file mode 100644 index 0000000..cc501ed --- /dev/null +++ b/BaBar_2014/BpBm_Chic1Kstar_KsPip_RunIpIIPol.dec @@ -0,0 +1,104 @@ +################################################################### +# B- --> chi1c K*- B+ --> Generic # +# | | # +# | |-->K0s pi- # +# | | # +# | |--> pi+pi- # +# | # +# |--> J/psi gam (100%) # +# | | # +# | |-->mu+mu-/e+e- # +# + cc # +# # +# Author: S. T'Jampens (04/25/2000) TJAMPENS@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +# Made from B+B-_Chi1cKstar_KS_sp3.dec, updated with RunI+II # +# J/Psi K* amplitudes. Marc Verderi, Philippe Grenier 01 Jun 2004 # +################################################################### +# +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: (J/PsiK* amplitudes) +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c1 chi_c1 +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mychi_c1 MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyB+ +1.000 Mychi_c1 MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Mychi_c1 +1.000 MyJ/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay MyJ/psi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0D_sch_K3piK0K.dec b/BaBar_2014/BpBm_D0D_sch_K3piK0K.dec new file mode 100644 index 0000000..4a34106 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_K3piK0K.dec @@ -0,0 +1,166 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_K3piKstar0K.dec b/BaBar_2014/BpBm_D0D_sch_K3piKstar0K.dec new file mode 100644 index 0000000..6c593a9 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_K3piKstar0K.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_K3piphipi.dec b/BaBar_2014/BpBm_D0D_sch_K3piphipi.dec new file mode 100644 index 0000000..261d754 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_K3piphipi.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_KpiK0K.dec b/BaBar_2014/BpBm_D0D_sch_KpiK0K.dec new file mode 100644 index 0000000..f64a958 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_KpiK0K.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_KpiKstar0K.dec b/BaBar_2014/BpBm_D0D_sch_KpiKstar0K.dec new file mode 100644 index 0000000..a8daaa6 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_KpiKstar0K.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_Kpiphipi.dec b/BaBar_2014/BpBm_D0D_sch_Kpiphipi.dec new file mode 100644 index 0000000..0fdefc6 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_Kpiphipi.dec @@ -0,0 +1,131 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_Kpipi0K0K.dec b/BaBar_2014/BpBm_D0D_sch_Kpipi0K0K.dec new file mode 100644 index 0000000..4efe4b9 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_Kpipi0K0K.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_Kpipi0Kstar0K.dec b/BaBar_2014/BpBm_D0D_sch_Kpipi0Kstar0K.dec new file mode 100644 index 0000000..58723d8 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_Kpipi0Kstar0K.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_Kpipi0phipi.dec b/BaBar_2014/BpBm_D0D_sch_Kpipi0phipi.dec new file mode 100644 index 0000000..dede018 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_Kpipi0phipi.dec @@ -0,0 +1,131 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_KspipiK0K.dec b/BaBar_2014/BpBm_D0D_sch_KspipiK0K.dec new file mode 100644 index 0000000..1d89095 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_KspipiK0K.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_KspipiKstar0K.dec b/BaBar_2014/BpBm_D0D_sch_KspipiKstar0K.dec new file mode 100644 index 0000000..c0a8488 --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_KspipiKstar0K.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0D_sch_Kspipiphipi.dec b/BaBar_2014/BpBm_D0D_sch_Kspipiphipi.dec new file mode 100644 index 0000000..6dda17a --- /dev/null +++ b/BaBar_2014/BpBm_D0D_sch_Kspipiphipi.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s+_1 Myanti-D0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_K3piKpipi.dec b/BaBar_2014/BpBm_D0Dch_K3piKpipi.dec new file mode 100644 index 0000000..2c8273d --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_K3piKpipi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_K3piKspi.dec b/BaBar_2014/BpBm_D0Dch_K3piKspi.dec new file mode 100644 index 0000000..4393407 --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_K3piKspi.dec @@ -0,0 +1,165 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_KpiKpipi.dec b/BaBar_2014/BpBm_D0Dch_KpiKpipi.dec new file mode 100644 index 0000000..820c906 --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_KpiKpipi.dec @@ -0,0 +1,129 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_KpiKspi.dec b/BaBar_2014/BpBm_D0Dch_KpiKspi.dec new file mode 100644 index 0000000..5884dfb --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_KpiKspi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_Kpipi0Kpipi.dec b/BaBar_2014/BpBm_D0Dch_Kpipi0Kpipi.dec new file mode 100644 index 0000000..928de92 --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_Kpipi0Kpipi.dec @@ -0,0 +1,129 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_Kpipi0Kspi.dec b/BaBar_2014/BpBm_D0Dch_Kpipi0Kspi.dec new file mode 100644 index 0000000..a285893 --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_Kpipi0Kspi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_KspipiKpipi.dec b/BaBar_2014/BpBm_D0Dch_KspipiKpipi.dec new file mode 100644 index 0000000..7c6694e --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_KspipiKpipi.dec @@ -0,0 +1,139 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dch_KspipiKspi.dec b/BaBar_2014/BpBm_D0Dch_KspipiKspi.dec new file mode 100644 index 0000000..264890c --- /dev/null +++ b/BaBar_2014/BpBm_D0Dch_KspipiKspi.dec @@ -0,0 +1,141 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D0_1 MyD+_1 PHSP; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D0Dm_KpiKpipi.dec b/BaBar_2014/BpBm_D0Dm_KpiKpipi.dec new file mode 100644 index 0000000..4e057a1 --- /dev/null +++ b/BaBar_2014/BpBm_D0Dm_KpiKpipi.dec @@ -0,0 +1,91 @@ +############################################################ +# # +# Exclusive DD decay.dec #2 # +# # +# D*D* . from B+ B- for SP3 # +# # +# Decay: B+ -> D0 D+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# D0D-_KpiKpipi.dec # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD- MyD+ +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 MyD0 MyD+ PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# + +#CDecay Myanti-D*0 +CDecay MyD- +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + + + diff --git a/BaBar_2014/BpBm_D0K.dec b/BaBar_2014/BpBm_D0K.dec new file mode 100644 index 0000000..b45e31e --- /dev/null +++ b/BaBar_2014/BpBm_D0K.dec @@ -0,0 +1,38 @@ +################################################### +# # +# Decay: B+ -> anti-D0 K+, B- -> X; + cc # +# # +# Author: Natalia Kuznetsova # +# Date: 11/25/99 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K3pi_D0barK3pi_Kminus.dec b/BaBar_2014/BpBm_D0K3pi_D0barK3pi_Kminus.dec new file mode 100644 index 0000000..e3b78fe --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_D0barK3pi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0k3pi MyD0Bk3pi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K3pi_D0barstarK3pi_Kminus.dec b/BaBar_2014/BpBm_D0K3pi_D0barstarK3pi_Kminus.dec new file mode 100644 index 0000000..eee7fdf --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_D0barstarK3pi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0k3pi MyD*0Bk3pi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K3pi_D0barstarKpi_Kminus.dec b/BaBar_2014/BpBm_D0K3pi_D0barstarKpi_Kminus.dec new file mode 100644 index 0000000..eea27f8 --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_D0barstarKpi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D0*barK- anti-B0->X # +# K3pi*Kpi # +# Author: Jean-Pierre Lees # +# Created: 19/sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0k3pi MyD*0Bkpi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K3pi_D0barstarKpipi0_Kminus.dec b/BaBar_2014/BpBm_D0K3pi_D0barstarKpipi0_Kminus.dec new file mode 100644 index 0000000..8a2c07f --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_D0barstarKpipi0_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0k3pi MyD*0Bkpipi0 K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K3pi_DminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0K3pi_DminusK2pi_K0S.dec new file mode 100644 index 0000000..4e9d3a3 --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_DminusK2pi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D0 D- K0s # +# D0->K3pi, D-->K+pi-pi-, K0s->pi+pi- # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0k3pi MyD- myKs PHSP; +Enddecay +CDecay MyB+ +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0K3pi_DstarminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0K3pi_DstarminusK2pi_K0S.dec new file mode 100644 index 0000000..704e24b --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_DstarminusK2pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->K3pi,D*-->D-pi0 # +# D- ->k2pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0k3pi MyD*-k2pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0K3pi_DstarminusK3pi_K0S.dec b/BaBar_2014/BpBm_D0K3pi_DstarminusK3pi_K0S.dec new file mode 100644 index 0000000..3cd7246 --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_DstarminusK3pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->K3pi,D*-->D0barpi- # +# D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0k3pi MyD*-k3pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0K3pi_DstarminusKpi_K0S.dec b/BaBar_2014/BpBm_D0K3pi_DstarminusKpi_K0S.dec new file mode 100644 index 0000000..d1a0c57 --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_DstarminusKpi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->K3pi,D*-->D0barpi- # +# D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0k3pi MyD*-kpi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0K3pi_DstarminusKpipi0_K0S.dec b/BaBar_2014/BpBm_D0K3pi_DstarminusKpipi0_K0S.dec new file mode 100644 index 0000000..b7efeeb --- /dev/null +++ b/BaBar_2014/BpBm_D0K3pi_DstarminusKpipi0_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->K3pi,D*-->D0barpi- # +# D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0k3pi MyD*-kpipi0 myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0K_CPminusCocktail.dec b/BaBar_2014/BpBm_D0K_CPminusCocktail.dec new file mode 100644 index 0000000..c63769b --- /dev/null +++ b/BaBar_2014/BpBm_D0K_CPminusCocktail.dec @@ -0,0 +1,123 @@ +##################################################### +# # +# Decay: B- -> D0 K- B+ -> D0bar K+ # +# | | # +# | | # +# | | # +# |-> Ks0 pi0 <-| # +# |-> Ks0 phi <-| # +# |-> Ks0 rho0 <-| # +# |-> Ks0 omega <-| # +# |-> Ks0 eta <-| # +# |-> Ks0 eta' <-| # +# |-> pi0 phi <-| # +# |-> pi0 rho0 <-| # +# # +# # +# Ks0 # +# | # +# |-> pi+ pi- # +# # +# phi # +# | # +# |-> K+ K- # +# # +# rho0 # +# | # +# |-> pi+ pi- # +# # +# omega # +# | # +# |-> pi+ pi- pi0 # +# # +# eta # +# | # +# (50%) |-> pi+ pi- pi0 # +# (50%) |-> gamma gamma # +# # +# eta' # +# | # +# |-> rho0 gamma # +# # +# # +# Author: Malcolm John # +# created: 25 May 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK_S0 K_S0 +Alias MyPhi phi +Alias MyRho0 rho0 +Alias MyOmega omega +Alias MyEta eta +Alias MyEta' eta' + +# +Decay Upsilon(4S) +1.00 MyB- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyD0 K- PHSP; +Enddecay +# +Decay MyB+ +1.00 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyD0 +0.125 pi0 MyK_S0 PHSP; +0.125 MyPhi MyK_S0 SVS; +0.125 MyRho0 MyK_S0 SVS; +0.125 MyOmega MyK_S0 SVS; +0.125 MyEta MyK_S0 PHSP; +0.125 MyEta' MyK_S0 PHSP; +0.125 MyPhi pi0 SVS; +0.125 MyRho0 pi0 SVS; +Enddecay +# +Decay Myanti-D0 +0.125 pi0 MyK_S0 PHSP; +0.125 MyPhi MyK_S0 SVS; +0.125 MyRho0 MyK_S0 SVS; +0.125 MyOmega MyK_S0 SVS; +0.125 MyEta MyK_S0 PHSP; +0.125 MyEta' MyK_S0 PHSP; +0.125 MyPhi pi0 SVS; +0.125 MyRho0 pi0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyRho0 +1.000 pi- pi+ VSS; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyEta +0.50 pi+ pi- pi0 ETA_DALITZ; +0.50 gamma gamma PHSP; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_D0K_CPplusCocktail.dec b/BaBar_2014/BpBm_D0K_CPplusCocktail.dec new file mode 100644 index 0000000..4196fc6 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_CPplusCocktail.dec @@ -0,0 +1,99 @@ +##################################################### +# # +# Decay: B- -> D0 K- B+ -> D0bar K+ # +# | | # +# | | # +# | | # +# |-> pi+ pi- <-| # +# |-> K+ K- <-| # +# |-> pi0 pi0 <-| # +# |-> Ks0 Ks0 <-| # +# |-> eta phi <-| # +# |-> eta rho <-| # +# # +# # +# Ks0 # +# | # +# |-> pi+ pi- # +# # +# phi # +# | # +# |-> K+ K- # +# # +# rho0 # +# | # +# |-> pi+ pi- # +# # +# eta # +# | # +# (50%) |-> pi+ pi- pi0 # +# (50%) |-> gamma gamma # +# # +# # +# Author: Malcolm John # +# created: 25 May 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK_S0 K_S0 +Alias MyPhi phi +Alias MyRho0 rho0 +Alias MyEta eta + +# +Decay Upsilon(4S) +1.00 MyB- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyD0 K- PHSP; +Enddecay +# +Decay MyB+ +1.00 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyD0 +0.166 pi+ pi- PHSP; +0.166 K+ K- PHSP; +0.166 pi0 pi0 PHSP; +0.166 MyK_S0 MyK_S0 PHSP; +0.166 MyPhi MyEta SVS; +0.166 MyRho0 MyEta SVS; +Enddecay +# +Decay Myanti-D0 +0.166 pi+ pi- PHSP; +0.166 K+ K- PHSP; +0.166 pi0 pi0 PHSP; +0.166 MyK_S0 MyK_S0 PHSP; +0.166 MyPhi MyEta SVS; +0.166 MyRho0 MyEta SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyRho0 +1.000 pi- pi+ VSS; +Enddecay +# +Decay MyEta +0.50 pi+ pi- pi0 ETA_DALITZ; +0.50 gamma gamma PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_D0K_D0CabibboNonCP.dec b/BaBar_2014/BpBm_D0K_D0CabibboNonCP.dec new file mode 100644 index 0000000..d290e0d --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0CabibboNonCP.dec @@ -0,0 +1,97 @@ +##################################################### +# # +# Decay: B- -> D0 K- B+ -> D0bar K+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D0 K- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD0 K+ PHSP; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_D0K_D0mK3pi.dec b/BaBar_2014/BpBm_D0K_D0mK3pi.dec new file mode 100644 index 0000000..58077cb --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mK3pi.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B- -> D0 K- (D0 -> K- pi+ pi+ pi-) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mK3pimDCSD.dec b/BaBar_2014/BpBm_D0K_D0mK3pimDCSD.dec new file mode 100644 index 0000000..fbef1a4 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mK3pimDCSD.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B- -> D0 K- (D0 -> K+ pi- pi+ pi-, DCSD) B+ -> X; + cc# +# # +# Author: Giovanni Marchiori,Malcolm John # +# Date: 24 May 2002 04/06/2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD0 K+ PHSP; +Enddecay +Decay MyB- +1.000 Myanti-D0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKK.dec b/BaBar_2014/BpBm_D0K_D0mKK.dec new file mode 100644 index 0000000..45a43ec --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKK.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 K- (D0 -> K- K+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 08/11/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKpi.dec b/BaBar_2014/BpBm_D0K_D0mKpi.dec new file mode 100644 index 0000000..191b9a3 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKpi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 K- (D0 -> K- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKpimDCSD.dec b/BaBar_2014/BpBm_D0K_D0mKpimDCSD.dec new file mode 100644 index 0000000..85cc533 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKpimDCSD.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 K- (D0 -> K+ pi-, DCSD) B+ -> X; + cc# +# # +# Author: Giovanni Marchiori,Malcolm John # +# Date: 24 May 2002 04/06/2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD0 K+ PHSP; +Enddecay +Decay MyB- +1.000 Myanti-D0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKpipi0.dec b/BaBar_2014/BpBm_D0K_D0mKpipi0.dec new file mode 100644 index 0000000..0c1b9df --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKpipi0.dec @@ -0,0 +1,36 @@ +############################################################# +# # +# Decay: B- -> D0 K- (D0 -> K- pi+ pi0) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +############################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKpipi0mDCSD.dec b/BaBar_2014/BpBm_D0K_D0mKpipi0mDCSD.dec new file mode 100644 index 0000000..6afe421 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKpipi0mDCSD.dec @@ -0,0 +1,37 @@ +############################################################# +# # +# Decay: B- -> D0 K- (D0 -> K+ pi- pi0, DCSD) B+ -> X; + cc# +# # +# Author: Giovanni Marchiori; Malcolm John # +# Date: 24 May 2002 04/06/2003 # +############################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# The wrong sign-ness is applied to the B here +Decay MyB+ +1.000 MyD0 K+ PHSP; +Enddecay +Decay MyB- +1.000 Myanti-D0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKsKK_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_D0K_D0mKsKK_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..b075866 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKsKK_Ksmpipi_PHSP.dec @@ -0,0 +1,49 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> K+K- K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKsKpi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_D0K_D0mKsKpi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..fab693b --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKsKpi_Ksmpipi_PHSP.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> Kpi K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +6.9 K- pi+ MyK_S0 PHSP; +5.2 K+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +6.9 K+ pi- MyK_S0 PHSP; +5.2 K- pi+ MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKsKs_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0mKsKs_Ksmpipi.dec new file mode 100644 index 0000000..6be9c1a --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKsKs_Ksmpipi.dec @@ -0,0 +1,56 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> K_S0 K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + + diff --git a/BaBar_2014/BpBm_D0K_D0mKspi0_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0mKspi0_Ksmpipi.dec new file mode 100644 index 0000000..db791ff --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKspi0_Ksmpipi.dec @@ -0,0 +1,52 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> K_S0 pi0 # +# | # +# `-> pi+ pi- # +# # +# # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKspipi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_D0K_D0mKspipi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..0de2698 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKspipi_Ksmpipi_PHSP.dec @@ -0,0 +1,49 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> pi+pi- K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mKsrho0_Ksmpipi_rho0mpipi.dec b/BaBar_2014/BpBm_D0K_D0mKsrho0_Ksmpipi_rho0mpipi.dec new file mode 100644 index 0000000..0641ad4 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mKsrho0_Ksmpipi_rho0mpipi.dec @@ -0,0 +1,56 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> rho0 K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0metaKs_etam3pi_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0metaKs_etam3pi_Ksmpipi.dec new file mode 100644 index 0000000..cd04bcc --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0metaKs_etam3pi_Ksmpipi.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta K_0S # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta eta +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0metaKs_etamgg_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0metaKs_etamgg_Ksmpipi.dec new file mode 100644 index 0000000..dfc136c --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0metaKs_etamgg_Ksmpipi.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta K_0S # +# | | # +# | `-> pi+ pi- # +# | # +# `--> gamma gamma # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta eta +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 Myeta MyK_S0 PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0metapKs_etapmetapipi_etamgg_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0metapKs_etapmetapipi_etamgg_Ksmpipi.dec new file mode 100644 index 0000000..87f3030 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0metapKs_etapmetapipi_etamgg_Ksmpipi.dec @@ -0,0 +1,62 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta' K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `-> pi+ pi- eta # +# | # +# `-> gamma gamma # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta' eta' +Alias Myeta eta +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myeta' +1.000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec new file mode 100644 index 0000000..3975720 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec @@ -0,0 +1,62 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta' K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `-> rho0 gamma # +# | # +# `-> pi+ pi- # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta' eta' +Alias Myrho0 rho0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myeta' +1.000 Myrho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0momegaKs_omegam3pi_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0momegaKs_omegam3pi_Ksmpipi.dec new file mode 100644 index 0000000..7d9e9aa --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0momegaKs_omegam3pi_Ksmpipi.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> omega K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myomega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mphiKs_phimKK_Ksmpipi.dec b/BaBar_2014/BpBm_D0K_D0mphiKs_phimKK_Ksmpipi.dec new file mode 100644 index 0000000..e434c38 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mphiKs_phimKK_Ksmpipi.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> phi K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> K+ K- # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myphi phi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mphieta_phimKK_etam3pi.dec b/BaBar_2014/BpBm_D0K_D0mphieta_phimKK_etam3pi.dec new file mode 100644 index 0000000..c052429 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mphieta_phimKK_etam3pi.dec @@ -0,0 +1,59 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta phi # +# | | # +# | `-> K+ K- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyEta eta +Alias MyPhi phi +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyPhi MyEta SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyPhi MyEta SVS; +Enddecay +# +Decay MyEta +1.000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# + +End + diff --git a/BaBar_2014/BpBm_D0K_D0mphieta_phimKK_etamgg.dec b/BaBar_2014/BpBm_D0K_D0mphieta_phimKK_etamgg.dec new file mode 100644 index 0000000..3cbc6b8 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mphieta_phimKK_etamgg.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta phi # +# | | # +# | `-> K+ K- # +# | # +# `--> gamma gamma # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyEta eta +Alias MyPhi phi +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyPhi MyEta SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyPhi MyEta SVS; +Enddecay +# +Decay MyEta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mpi0phi_phimKK.dec b/BaBar_2014/BpBm_D0K_D0mpi0phi_phimKK.dec new file mode 100644 index 0000000..a7c538f --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mpi0phi_phimKK.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> phi pi0 # +# | # +# | # +# | # +# `--> K+ K- # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyPhi phi + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyPhi pi0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyPhi pi0 SVS; +Enddecay +# +Decay MyPhi +1.000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mpi0pipi_PHSP.dec b/BaBar_2014/BpBm_D0K_D0mpi0pipi_PHSP.dec new file mode 100644 index 0000000..7403f17 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mpi0pipi_PHSP.dec @@ -0,0 +1,42 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> pi+ pi- pi0 # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mpi0rho0_rho0mpipi.dec b/BaBar_2014/BpBm_D0K_D0mpi0rho0_rho0mpipi.dec new file mode 100644 index 0000000..bb5feea --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mpi0rho0_rho0mpipi.dec @@ -0,0 +1,54 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> rho0 pi0 # +# | # +# | # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyRho0 pi0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 pi0 SVS; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_D0K_D0mpipi.dec b/BaBar_2014/BpBm_D0K_D0mpipi.dec new file mode 100644 index 0000000..f56b245 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mpipi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 K- (D0 -> pi- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 08/11/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_D0mrho0eta_rho0mpipi_etam3pi.dec b/BaBar_2014/BpBm_D0K_D0mrho0eta_rho0mpipi_etam3pi.dec new file mode 100644 index 0000000..b93213c --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mrho0eta_rho0mpipi_etam3pi.dec @@ -0,0 +1,65 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta rho0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyEta eta +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay MyEta +1.000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End + + + + + + + + diff --git a/BaBar_2014/BpBm_D0K_D0mrho0eta_rho0mpipi_etamgg.dec b/BaBar_2014/BpBm_D0K_D0mrho0eta_rho0mpipi_etamgg.dec new file mode 100644 index 0000000..affbf24 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_D0mrho0eta_rho0mpipi_etamgg.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> eta rho0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> gamma gamma # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 06/14/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyEta eta +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyEta SVS; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0K_pipipi0mres.dec b/BaBar_2014/BpBm_D0K_pipipi0mres.dec new file mode 100644 index 0000000..27af7a9 --- /dev/null +++ b/BaBar_2014/BpBm_D0K_pipipi0mres.dec @@ -0,0 +1,57 @@ +##################################################### +# # +# Decay: B- -> D0 K- B+ -> D0bar K+ # +# | | # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# |-> rho0 pi0 <-| # +# |-> pi+ pi- pi0 <-| # +# # +# # +# Author: Abi Soffer # +# created: 3 June 2004 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->c: +# +Decay MyB- +1.00 MyD0 K- PHSP; +Enddecay + +Decay MyB+ +1.00 Myanti-D0 K+ PHSP; +Enddecay + + +# Use CLEO BR's (hep-ex/0306048, fit fractions on page 6): +Decay MyD0 +0.765 rho+ pi- SVS; +0.239 rho0 pi0 SVS; +0.323 rho- pi+ SVS; +0.027 pi+ pi- pi0 PHSP; +Enddecay + +Decay Myanti-D0 +0.323 rho- pi+ SVS; +0.239 rho0 pi0 SVS; +0.765 rho+ pi- SVS; +0.027 pi+ pi- pi0 PHSP; +Enddecay + + +End + + diff --git a/BaBar_2014/BpBm_D0Kpi0_D0CP.dec b/BaBar_2014/BpBm_D0Kpi0_D0CP.dec new file mode 100755 index 0000000..d1d279d --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi0_D0CP.dec @@ -0,0 +1,179 @@ +########################################################################## +# # +# Decay file for: B+- --> D0 K pi0, D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.00010 Myanti-D0 K+ pi0 PHSP; +Enddecay + +Decay MyB- + 0.00010 MyD0 K- pi0 PHSP; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta2 PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/BpBm_D0Kpi0_D0NonCP.dec b/BaBar_2014/BpBm_D0Kpi0_D0NonCP.dec new file mode 100755 index 0000000..745a32d --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi0_D0NonCP.dec @@ -0,0 +1,142 @@ +########################################################################## +# # +# Decay file for: B+- --> D0 K pi0, D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.00010 Myanti-D0 K+ pi0 PHSP; +Enddecay + +Decay MyB- + 0.00010 MyD0 K- pi0 PHSP; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/BpBm_D0Kpi_D0barK3pi_Kminus.dec b/BaBar_2014/BpBm_D0Kpi_D0barK3pi_Kminus.dec new file mode 100644 index 0000000..957cb09 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_D0barK3pi_Kminus.dec @@ -0,0 +1,52 @@ +####################################################### +# # +# Decay: B-->D0D0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +####################################################### +# +Alias MyB- B- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0 MyD0B K- PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpi_D0barKpi_Kminus.dec b/BaBar_2014/BpBm_D0Kpi_D0barKpi_Kminus.dec new file mode 100644 index 0000000..8c7425e --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_D0barKpi_Kminus.dec @@ -0,0 +1,30 @@ +####################################################### +# # +# Decay: B-->D0D0barK- anti-B0->X # +# Kpi*Kpi # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +####################################################### +# +Alias MyB- B- +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0 MyD0B K- PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpi_D0barKpipi0_Kminus.dec b/BaBar_2014/BpBm_D0Kpi_D0barKpipi0_Kminus.dec new file mode 100644 index 0000000..fb71631 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_D0barKpipi0_Kminus.dec @@ -0,0 +1,30 @@ +####################################################### +# # +# Decay: B-->D0D0barK- anti-B0->X # +# kpi*Kpipi0 # +# Author: Jean-Pierre Lees lees@lapp.in2p3.fr # +# Created: 04/March/99 # +####################################################### +# +Alias MyB- B- +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0 MyD0B K- PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpi_D0barstarK3pi_Kminus.dec b/BaBar_2014/BpBm_D0Kpi_D0barstarK3pi_Kminus.dec new file mode 100644 index 0000000..1bebd79 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_D0barstarK3pi_Kminus.dec @@ -0,0 +1,56 @@ +####################################################### +# # +# Decay: B-->D0D0*barK- anti-B0->X # +# Kpi*K3pi # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +####################################################### +# +Alias MyB- B- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyD*0B anti-D*0 +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0 MyD*0B K- PHSP; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpi_D0barstarKpi_Kminus.dec b/BaBar_2014/BpBm_D0Kpi_D0barstarKpi_Kminus.dec new file mode 100644 index 0000000..8962dcf --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_D0barstarKpi_Kminus.dec @@ -0,0 +1,35 @@ +####################################################### +# # +# Decay: B-->D0D0*barK- anti-B0->X # +# Kpi*Kpi # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +####################################################### +# +Alias MyB- B- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyD*0B anti-D*0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0 MyD*0B K- PHSP; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpi_D0barstarKpipi0_Kminus.dec b/BaBar_2014/BpBm_D0Kpi_D0barstarKpipi0_Kminus.dec new file mode 100644 index 0000000..8f255d3 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_D0barstarKpipi0_Kminus.dec @@ -0,0 +1,35 @@ +####################################################### +# # +# Decay: B-->D0D0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +####################################################### +# +Alias MyB- B- +Alias MyD0B anti-D0 +Alias MyD0 D0 +Alias MyD*0B anti-D*0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0 MyD*0B K- PHSP; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpi_DminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0Kpi_DminusK2pi_K0S.dec new file mode 100644 index 0000000..813947b --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_DminusK2pi_K0S.dec @@ -0,0 +1,38 @@ +####################################################### +# # +# Decay: B0 -> D0 D- K0s # +# D0->Kpi, D-->K+pi-pi-, K0s->pi+pi- # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD- D- +Alias MyD0 D0 +Alias myKs K_S0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +0.1000 MyD0 MyD- myKs PHSP; +Enddecay +# +Decay MyD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpi_DstarminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0Kpi_DstarminusK2pi_K0S.dec new file mode 100644 index 0000000..9d30db5 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_DstarminusK2pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpi,D*-->D-pi0 # +# D- ->k2pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpi MyD*-k2pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpi_DstarminusK3pi_K0S.dec b/BaBar_2014/BpBm_D0Kpi_DstarminusK3pi_K0S.dec new file mode 100644 index 0000000..3defad8 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_DstarminusK3pi_K0S.dec @@ -0,0 +1,216 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpi,D*-->D0barpi- # +# D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpi MyD*-k3pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpi_DstarminusKpi_K0S.dec b/BaBar_2014/BpBm_D0Kpi_DstarminusKpi_K0S.dec new file mode 100644 index 0000000..804c2f9 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_DstarminusKpi_K0S.dec @@ -0,0 +1,216 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpi,D*-->D0barpi- # +# D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpi MyD*-kpi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpi_DstarminusKpipi0_K0S.dec b/BaBar_2014/BpBm_D0Kpi_DstarminusKpipi0_K0S.dec new file mode 100644 index 0000000..f893145 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpi_DstarminusKpipi0_K0S.dec @@ -0,0 +1,216 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpi,D*-->D0barpi- # +# D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpi MyD*-kpipi0 myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpipi0_D0barK3pi_Kminus.dec b/BaBar_2014/BpBm_D0Kpipi0_D0barK3pi_Kminus.dec new file mode 100644 index 0000000..1fbbb67 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_D0barK3pi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0kpipi0 MyD0Bk3pi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpipi0_D0barKpipi0_Kminus.dec b/BaBar_2014/BpBm_D0Kpipi0_D0barKpipi0_Kminus.dec new file mode 100644 index 0000000..4522222 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_D0barKpipi0_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0kpipi0 MyD0Bkpipi0 K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpipi0_D0barstarK3pi_Kminus.dec b/BaBar_2014/BpBm_D0Kpipi0_D0barstarK3pi_Kminus.dec new file mode 100644 index 0000000..e20d888 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_D0barstarK3pi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0kpipi0 MyD*0Bk3pi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpipi0_D0barstarKpi_Kminus.dec b/BaBar_2014/BpBm_D0Kpipi0_D0barstarKpi_Kminus.dec new file mode 100644 index 0000000..5fa68d2 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_D0barstarKpi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D0*barK- anti-B0->X # +# Kpipi0*Kpi # +# Author: Jean-Pierre Lees # +# Created: 19/sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0kpipi0 MyD*0Bkpi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpipi0_D0barstarKpipi0_Kminus.dec b/BaBar_2014/BpBm_D0Kpipi0_D0barstarKpipi0_Kminus.dec new file mode 100644 index 0000000..ddbafc8 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_D0barstarKpipi0_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0kpipi0 MyD*0Bkpipi0 K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kpipi0_DminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0Kpipi0_DminusK2pi_K0S.dec new file mode 100644 index 0000000..40d6889 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_DminusK2pi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D0 D- K0s # +# D0->Kpipi0, D-->K+pi-pi-, K0s->pi+pi- # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpipi0 MyD- myKs PHSP; +Enddecay +CDecay MyB+ +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpipi0_DstarminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0Kpipi0_DstarminusK2pi_K0S.dec new file mode 100644 index 0000000..6491f91 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_DstarminusK2pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->k2pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpipi0 MyD*-k2pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpipi0_DstarminusK3pi_K0S.dec b/BaBar_2014/BpBm_D0Kpipi0_DstarminusK3pi_K0S.dec new file mode 100644 index 0000000..182f265 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_DstarminusK3pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpipi0 MyD*-k3pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpipi0_DstarminusKpi_K0S.dec b/BaBar_2014/BpBm_D0Kpipi0_DstarminusKpi_K0S.dec new file mode 100644 index 0000000..4cf36e6 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_DstarminusKpi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpipi0 MyD*-kpi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpipi0_DstarminusKpipi0_K0S.dec b/BaBar_2014/BpBm_D0Kpipi0_DstarminusKpipi0_K0S.dec new file mode 100644 index 0000000..3c5ba47 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_DstarminusKpipi0_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD0kpipi0 MyD*-kpipi0 myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0Kpipi0_pim.dec b/BaBar_2014/BpBm_D0Kpipi0_pim.dec new file mode 100644 index 0000000..35df6c4 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kpipi0_pim.dec @@ -0,0 +1,42 @@ +#################################################### +# # +# Inclusive D0pi decay.dec # +# # +# D0pi from B+B- # +# # +# Decay: B+ -> anti-D0 pi+, B- -> X +c.c. # +# |-> K+ pi- pi0 # +# # +# 19 Jun 02 # +# Erich Varnes # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +Decay Myanti-D0 +1.00 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD0 pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D0Krho0_D0CP.dec b/BaBar_2014/BpBm_D0Krho0_D0CP.dec new file mode 100755 index 0000000..34fde2f --- /dev/null +++ b/BaBar_2014/BpBm_D0Krho0_D0CP.dec @@ -0,0 +1,179 @@ +########################################################################## +# # +# Decay file for: B+- --> D0 K rho0, D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.00010 Myanti-D0 K+ rho0 PHSP; +Enddecay + +Decay MyB- + 0.00010 MyD0 K- rho0 PHSP; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta2 PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/BpBm_D0Krho0_D0NonCP.dec b/BaBar_2014/BpBm_D0Krho0_D0NonCP.dec new file mode 100755 index 0000000..7c7e8a7 --- /dev/null +++ b/BaBar_2014/BpBm_D0Krho0_D0NonCP.dec @@ -0,0 +1,142 @@ +########################################################################## +# # +# Decay file for: B+- --> D0 K rho0, D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.00010 Myanti-D0 K+ rho0 PHSP; +Enddecay + +Decay MyB- + 0.00010 MyD0 K- rho0 PHSP; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/BpBm_D0KsPi_D0mCPp.dec b/BaBar_2014/BpBm_D0KsPi_D0mCPp.dec new file mode 100644 index 0000000..86a4943 --- /dev/null +++ b/BaBar_2014/BpBm_D0KsPi_D0mCPp.dec @@ -0,0 +1,65 @@ +############################################################################ +# Decay: B- -> D0 Ks(Pi+Pi-) Pi- (D0 -> h- h+) B+ -> X; + cc (h={Pi,K}) # +# Author : Guillaume Therin November 20, 2003 # +############################################################################ +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> h- h+ # +########################################### +# +Decay MyD0 +0.742 K- K+ PHSP; +0.258 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +0.742 K+ K- PHSP; +0.258 pi+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0KsPi_D0mKK.dec b/BaBar_2014/BpBm_D0KsPi_D0mKK.dec new file mode 100644 index 0000000..6802a03 --- /dev/null +++ b/BaBar_2014/BpBm_D0KsPi_D0mKK.dec @@ -0,0 +1,55 @@ +############################################################################ +# Decay : B- -> D0(K-K+) Ks(Pi+Pi-) Pi- , B+ -> X ; cc # +# Author : Guillaume Therin February 27, 2004 # +############################################################################ +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 Ks Pi # +########################################### +# +Decay MyB+ +1.000 Myanti-D0 MyKs pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 MyKs pi- PHSP; +Enddecay +# +########################################### +# D0 -> K- K+ # +########################################### +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +########################################### +# Ks -> Pi+ Pi- # +########################################### +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D0KsPi_D0mKsOmega.dec b/BaBar_2014/BpBm_D0KsPi_D0mKsOmega.dec new file mode 100644 index 0000000..881f13e --- /dev/null +++ b/BaBar_2014/BpBm_D0KsPi_D0mKsOmega.dec @@ -0,0 +1,63 @@ +############################################################################ +# Decay : B- -> D0(KsOmega(Pi+Pi-Pi0)) Ks(Pi+Pi-) Pi- , B+ -> X ; cc # +# Author : Guillaume Therin February 12, 2004 # +############################################################################ +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyOmega omega +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 Ks Pi # +########################################### +# +Decay MyB+ +1.000 Myanti-D0 MyKs pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 MyKs pi- PHSP; +Enddecay +# +########################################### +# D0 -> Ks Omega # +########################################### +# +Decay MyD0 +1.00 MyOmega MyKs SVS; +Enddecay +Decay Myanti-D0 +1.00 MyOmega MyKs SVS; +Enddecay +# +########################################### +# Ks -> Pi+ Pi- # +########################################### +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +########################################### +# Omega -> Pi+ Pi- Pi0 # +########################################### +# +Decay MyOmega +1.00 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0KsPi_D0mKsPhi.dec b/BaBar_2014/BpBm_D0KsPi_D0mKsPhi.dec new file mode 100644 index 0000000..b88e8e4 --- /dev/null +++ b/BaBar_2014/BpBm_D0KsPi_D0mKsPhi.dec @@ -0,0 +1,59 @@ +############################################################################ +# Decay : B- -> D0(KsPhi) Ks(Pi+Pi-) Pi- , B+ -> X ; cc # +# Author : Guillaume Therin February 27, 2004 # +############################################################################ +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyPhi phi +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 Ks Pi # +########################################### +# +Decay MyB+ +1.000 Myanti-D0 MyKs pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 MyKs pi- PHSP; +Enddecay +# +########################################### +# D0 -> Ks Phi # +########################################### +# +Decay MyD0 +1.000 MyPhi MyKs SVS; +Enddecay +Decay Myanti-D0 +1.000 MyPhi MyKs SVS; +Enddecay +# +Decay MyPhi +1.000 K+ K- VSS; +Enddecay +# +########################################### +# Ks -> Pi+ Pi- # +########################################### +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0KsPi_D0mKsPi0.dec b/BaBar_2014/BpBm_D0KsPi_D0mKsPi0.dec new file mode 100644 index 0000000..6e3caf3 --- /dev/null +++ b/BaBar_2014/BpBm_D0KsPi_D0mKsPi0.dec @@ -0,0 +1,56 @@ +############################################################################ +# Decay : B- -> D0(KsPi0) Ks(Pi+Pi-) Pi- , B+ -> X ; cc # +# Author : Guillaume Therin February 12, 2004 # +############################################################################ +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 Ks Pi # +########################################### +# +Decay MyB+ +1.000 Myanti-D0 MyKs pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 MyKs pi- PHSP; +Enddecay +# +########################################### +# D0 -> Ks Pi0 # +########################################### +# +Decay MyD0 +1.000 pi0 MyKs PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi0 MyKs PHSP; +Enddecay +# +########################################### +# Ks -> Pi+ Pi- # +########################################### +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_D0KsPi_D0mPiPi.dec b/BaBar_2014/BpBm_D0KsPi_D0mPiPi.dec new file mode 100644 index 0000000..4160359 --- /dev/null +++ b/BaBar_2014/BpBm_D0KsPi_D0mPiPi.dec @@ -0,0 +1,55 @@ +############################################################################ +# Decay : B- -> D0(Pi-Pi+) Ks(Pi+Pi-) Pi- , B+ -> X ; cc # +# Author : Guillaume Therin February 27, 2004 # +############################################################################ +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 Ks Pi # +########################################### +# +Decay MyB+ +1.000 Myanti-D0 MyKs pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 MyKs pi- PHSP; +Enddecay +# +########################################### +# D0 -> Pi- Pi+ # +########################################### +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +########################################### +# Ks -> Pi+ Pi- # +########################################### +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D0Kst.dec b/BaBar_2014/BpBm_D0Kst.dec new file mode 100644 index 0000000..741e6aa --- /dev/null +++ b/BaBar_2014/BpBm_D0Kst.dec @@ -0,0 +1,64 @@ +################################################### +# # +# Decay: B+ -> anti-D0 K*+, B- -> X; + cc # +# # +# Author: Natalia Kuznetsova # +# Date: 11/25/99 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +ChargeConj MyK0 Myanti-K0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 MyK*+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 MyK*- PHSP; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyK*+ +0.6660 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.6660 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK0 +1.000 K_S0 PHSP; +Enddecay +Decay Myanti-K0 +1.000 K_S0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_D0Kstar.dec b/BaBar_2014/BpBm_D0Kstar.dec new file mode 100644 index 0000000..5e9260b --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar.dec @@ -0,0 +1,135 @@ +#################################################### +# Decay: B- -> D0 K*-, B+ -> X # +# |-> brec c'tail |-> KS pi- # +# |-> K- pi0 # +# # +# + cc # +# # +# Stephen Levy # +# August 15, 2002 # +# # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +Alias Myomega omega +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyK*+ Myanti-D0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyD0 SVS; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +0.5784 MyKs pi+ VSS; +0.4216 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +0.5784 MyKs pi- VSS; +0.4216 K- pi0 VSS; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_CPminusCocktail.dec b/BaBar_2014/BpBm_D0Kstar_CPminusCocktail.dec new file mode 100644 index 0000000..8e3b3d4 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_CPminusCocktail.dec @@ -0,0 +1,133 @@ +##################################################### +# # +# Decay: B- -> D0 K*- B+ -> D0bar K*+ # +# | | | | # +# | |->Ks0pi- | |->Ks0pi+ # +# | | # +# |-> Ks0 pi0 <-| # +# |-> Ks0 phi <-| # +# |-> Ks0 rho0 <-| # +# |-> Ks0 omega <-| # +# |-> Ks0 eta <-| # +# |-> Ks0 eta' <-| # +# |-> pi0 phi <-| # +# |-> pi0 rho0 <-| # +# # +# # +# Ks0 # +# | # +# |-> pi+ pi- # +# # +# phi # +# | # +# |-> K+ K- # +# # +# rho0 # +# | # +# |-> pi+ pi- # +# # +# omega # +# | # +# |-> pi+ pi- pi0 # +# # +# eta # +# | # +# (50%) |-> pi+ pi- pi0 # +# (50%) |-> gamma gamma # +# # +# eta' # +# | # +# |-> rho0 gamma # +# # +# # +# Author: Malcolm John # +# created: 25 May 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKstar+ K*+ +Alias MyKstar- K*- + +Alias MyK_S0 K_S0 +Alias MyPhi phi +Alias MyRho0 rho0 +Alias MyOmega omega +Alias MyEta eta +Alias MyEta' eta' + +# +Decay Upsilon(4S) +1.00 MyB- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyKstar- MyD0 SVS; +Enddecay +# +Decay MyB+ +1.00 MyKstar+ Myanti-D0 SVS; +Enddecay +# +Decay MyKstar- +1.00 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.00 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.125 pi0 MyK_S0 PHSP; +0.125 MyPhi MyK_S0 SVS; +0.125 MyRho0 MyK_S0 SVS; +0.125 MyOmega MyK_S0 SVS; +0.125 MyEta MyK_S0 PHSP; +0.125 MyEta' MyK_S0 PHSP; +0.125 MyPhi pi0 SVS; +0.125 MyRho0 pi0 SVS; +Enddecay +# +Decay Myanti-D0 +0.125 pi0 MyK_S0 PHSP; +0.125 MyPhi MyK_S0 SVS; +0.125 MyRho0 MyK_S0 SVS; +0.125 MyOmega MyK_S0 SVS; +0.125 MyEta MyK_S0 PHSP; +0.125 MyEta' MyK_S0 PHSP; +0.125 MyPhi pi0 SVS; +0.125 MyRho0 pi0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyRho0 +1.000 pi- pi+ VSS; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyEta +0.50 pi+ pi- pi0 ETA_DALITZ; +0.50 gamma gamma PHSP; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_D0Kstar_CPplusCocktail.dec b/BaBar_2014/BpBm_D0Kstar_CPplusCocktail.dec new file mode 100644 index 0000000..767c914 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_CPplusCocktail.dec @@ -0,0 +1,108 @@ +##################################################### +# # +# Decay: B- -> D0 K*- B+ -> D0bar K*+ # +# | | | | # +# | |->Ks0pi- | |->Ks0pi+ # +# | | # +# |-> pi+ pi- <-| # +# |-> K+ K- <-| # +# |-> pi0 pi0 <-| # +# |-> Ks0 Ks0 <-| # +# |-> eta phi <-| # +# |-> eta rho <-| # +# # +# Ks0 # +# | # +# |-> pi+ pi- # +# # +# phi # +# | # +# |-> K+ K- # +# # +# rho0 # +# | # +# |-> pi+ pi- # +# # +# eta # +# | # +# (50%) |-> pi+ pi- pi0 # +# (50%) |-> gamma gamma # +# # +# # +# Author: Malcolm John # +# created: 25 May 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKstar+ K*+ +Alias MyKstar- K*- + +Alias MyK_S0 K_S0 +Alias MyPhi phi +Alias MyRho0 rho0 +Alias MyEta eta + +# +Decay Upsilon(4S) +1.00 MyB- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyKstar- MyD0 SVS; +Enddecay +# +Decay MyB+ +1.00 MyKstar+ Myanti-D0 SVS; +Enddecay +# +Decay MyKstar- +1.00 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.00 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.166 pi+ pi- PHSP; +0.166 K+ K- PHSP; +0.166 pi0 pi0 PHSP; +0.166 MyK_S0 MyK_S0 PHSP; +0.166 MyPhi MyEta SVS; +0.166 MyRho0 MyEta SVS; +Enddecay +# +Decay Myanti-D0 +0.166 pi+ pi- PHSP; +0.166 K+ K- PHSP; +0.166 pi0 pi0 PHSP; +0.166 MyK_S0 MyK_S0 PHSP; +0.166 MyPhi MyEta SVS; +0.166 MyRho0 MyEta SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyRho0 +1.000 pi- pi+ VSS; +Enddecay +# +Decay MyEta +0.50 pi+ pi- pi0 ETA_DALITZ; +0.50 gamma gamma PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_D0Kstar_D0CabibboNonCP.dec b/BaBar_2014/BpBm_D0Kstar_D0CabibboNonCP.dec new file mode 100644 index 0000000..bad812f --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0CabibboNonCP.dec @@ -0,0 +1,97 @@ +##################################################### +# # +# Decay: B- -> D0 K* B+ -> D0bar K*+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D0 MyK*- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD0 MyK*+ PHSP; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_D0Kstar_D0mK3pi.dec b/BaBar_2014/BpBm_D0Kstar_D0mK3pi.dec new file mode 100644 index 0000000..effd5c6 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mK3pi.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B- -> D0 K*- (D0 -> K- pi+ pi+ pi-) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 K*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 K*- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mK3pimDCSD.dec b/BaBar_2014/BpBm_D0Kstar_D0mK3pimDCSD.dec new file mode 100644 index 0000000..d18de39 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mK3pimDCSD.dec @@ -0,0 +1,36 @@ +#################################################################### +# # +# Decay: B- -> D0 K*- (D0 -> K- pi+ pi+ pi-, DCSD) B+ -> X; + cc# +# # +# Author: Malcolm John # +# Date: 04/06/2003 # +#################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 K*+ MyD0 SVS; +Enddecay +Decay MyB- +1.000 K*- Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKK.dec b/BaBar_2014/BpBm_D0Kstar_D0mKK.dec new file mode 100644 index 0000000..785b669 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKK.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 K*- (D0 -> K- K+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 K*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 K*- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKPi0.dec new file mode 100644 index 0000000..bb92b99 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKPi0.dec @@ -0,0 +1,59 @@ +######################################################### +# Decay: B- -> D0 K*- (D0 -> K- K+) B+ -> X; + cc # +# |-> K- Pi0 # +# Author : Guillaume Therin November 20, 2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- K+ # +########################################### +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +########################################### +# K*- -> K- Pi0 # +########################################### +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKsPi.dec new file mode 100644 index 0000000..40d3f48 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKK_KstarmKsPi.dec @@ -0,0 +1,64 @@ +######################################################### +# Decay: B- -> D0 K*- (D0 -> K- K+) B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# Author : Guillaume Therin November 20, 2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- K+ # +########################################### +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKPi0.dec new file mode 100644 index 0000000..2ee5cf1 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKPi0.dec @@ -0,0 +1,60 @@ +############################################################## +# Decay: B- -> D0 K*- (D0 -> K- Pi+ Pi0) B+ -> X; + cc # +# |-> K- Pi0 # +# Author : Guillaume Therin November 20, 2003 # +############################################################## +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- Pi+ Pi0 # +########################################### +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +########################################### +# K*- -> K- Pi0 # +########################################### +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi.dec new file mode 100644 index 0000000..ff75227 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi.dec @@ -0,0 +1,64 @@ +############################################################## +# Decay: B- -> D0 K*- (D0 -> K- Pi+ Pi0) B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# Author : Guillaume Therin November 20, 2003 # +############################################################## +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- Pi+ Pi0 # +########################################### +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi_ADS.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi_ADS.dec new file mode 100644 index 0000000..5772ee0 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPiPi0_KstarmKsPi_ADS.dec @@ -0,0 +1,67 @@ +###################################################################### +# Decay: B- -> D(K+Pi-Pi0) K*- B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# D = {D0 , D0bar} # +# To generate this suppressed MC signal, # +# we assume EvtGen has the same behaviour for D0 and D0bar # +# Author : Guillaume Therin June 21, 2004 # +###################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ MyD0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- Myanti-D0 SVS; +Enddecay +# +########################################### +# D0 -> K- Pi+ Pi0 # +########################################### +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKPi0.dec new file mode 100644 index 0000000..41d9fcd --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKPi0.dec @@ -0,0 +1,60 @@ +######################################################### +# Decay: B- -> D0 K*- (D0 -> K- 3Pi) B+ -> X; + cc # +# |-> K- Pi0 # +# Author : Guillaume Therin November 20, 2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- 3Pi # +########################################### +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> K- Pi0 # +########################################### +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi.dec new file mode 100644 index 0000000..8f8b9c9 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi.dec @@ -0,0 +1,64 @@ +######################################################### +# Decay: B- -> D0 K*- (D0 -> K- 3Pi) B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# Author : Guillaume Therin November 20, 2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- 3Pi # +########################################### +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi_ADS.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi_ADS.dec new file mode 100644 index 0000000..cb2d0a7 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPiPiPi_KstarmKsPi_ADS.dec @@ -0,0 +1,67 @@ +###################################################################### +# Decay: B- -> D(K+ 3Pi) K*- B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# D = {D0 , D0bar} # +# To generate this suppressed MC signal, # +# we assume EvtGen has the same behaviour for D0 and D0bar # +# Author : Guillaume Therin June 21, 2004 # +###################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ MyD0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- Myanti-D0 SVS; +Enddecay +# +########################################### +# D0 -> K- 3Pi # +########################################### +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKPi0.dec new file mode 100644 index 0000000..d6e21eb --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKPi0.dec @@ -0,0 +1,59 @@ +########################################################## +# Decay: B- -> D0 K*- (D0 -> K- Pi+) B+ -> X; + cc # +# |-> K- Pi0 # +# Author : Guillaume Therin November 20, 2003 # +########################################################## +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- Pi+ # +########################################### +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> K- Pi0 # +########################################### +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKsPi.dec new file mode 100644 index 0000000..3e9c65c --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKsPi.dec @@ -0,0 +1,64 @@ +######################################################### +# Decay: B- -> D0 K*- (D0 -> K- Pi+) B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# Author : Guillaume Therin November 20, 2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K- K+ # +########################################### +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKsPi_ADS.dec b/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKsPi_ADS.dec new file mode 100644 index 0000000..79ca8e1 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKPi_KstarmKsPi_ADS.dec @@ -0,0 +1,67 @@ +###################################################################### +# Decay: B- -> D(K+Pi-) K*- B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# D = {D0 , D0bar} # +# To generate this suppressed MC signal, # +# we assume EvtGen has the same behaviour for D0 and D0bar # +# Author : Guillaume Therin June 21, 2004 # +###################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ MyD0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- Myanti-D0 SVS; +Enddecay +# +########################################### +# D0 -> K- Pi+ # +########################################### +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKpi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKpi.dec new file mode 100644 index 0000000..3615940 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKpi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 K*- (D0 -> K- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 K*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 K*- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKpimDCSD.dec b/BaBar_2014/BpBm_D0Kstar_D0mKpimDCSD.dec new file mode 100644 index 0000000..95d2a69 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKpimDCSD.dec @@ -0,0 +1,36 @@ +############################################################ +# # +# Decay: B- -> D0 K*- (D0 -> K- pi+, DCSD) B+ -> X; + cc# +# # +# Author: Malcolm John # +# Date: 04/06/2003 # +############################################################ +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 K*+ MyD0 SVS; +Enddecay +Decay MyB- +1.000 K*- Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKpipi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKpipi0.dec new file mode 100644 index 0000000..b36b664 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKpipi0.dec @@ -0,0 +1,36 @@ +############################################################# +# # +# Decay: B- -> D0 K*- (D0 -> K- pi+ pi0) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +############################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 K*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 K*- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKpipi0mDCSD.dec b/BaBar_2014/BpBm_D0Kstar_D0mKpipi0mDCSD.dec new file mode 100644 index 0000000..a50d277 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKpipi0mDCSD.dec @@ -0,0 +1,37 @@ +################################################################ +# # +# Decay: B- -> D0 K*- (D0 -> K- pi+ pi0, DCSD) B+ -> X; + cc# +# # +# Author: Malcolm John # +# Date: 04/06/2003 # +################################################################ +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# The wrong sign-ness is applied to the B here +Decay MyB+ +1.000 K*+ MyD0 SVS; +Enddecay +Decay MyB- +1.000 K*- Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsEtaP_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsEtaP_KstarmKsPi.dec new file mode 100644 index 0000000..3cc9491 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsEtaP_KstarmKsPi.dec @@ -0,0 +1,101 @@ +######################################################### +# # +# Decay:B- -> D0 K*- # +# (D0 -> Ks EtaP 100%) # +# (Ks -> Pi+ Pi- 100%) # +# (EtaP -> Rho gam 50% , pi+ pi- Eta 50%) # +# (Eta -> gam gam 100%) # +# (RHo0 -> Pi+ P- 100%) # +# (K*- -> Ks Pi-) # +# # +# B+ -> X # +# And Charge Conjugates # +# # +# Author: Paul Stephen Jackson # +# Date: 05/Oct/2003 # +# # +######################################################### + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 +Alias MyEta eta +Alias MyEta' eta' + +################# +# U(4s) # +################# +Decay Upsilon(4S) +0.50 MyB- B+ VSS; +0.50 MyB+ B- VSS; +Enddecay + +################# +# B- # +################# +Decay MyB- +1.00 MyKstar- MyD0 SVS; +Enddecay + +Decay MyB+ +1.00 MyKstar+ Myanti-D0 SVS; +Enddecay + +################# +# K*- # +################# +Decay MyKstar- +1.00 MyK_S0 pi- VSS; +Enddecay + +Decay MyKstar+ +1.00 MyK_S0 pi+ VSS; +Enddecay + +################# +# D0 # +################# +Decay MyD0 +1.00 MyEta' MyK_S0 PHSP; +Enddecay + +Decay Myanti-D0 +1.00 MyEta' MyK_S0 PHSP; +Enddecay + +################# +# Ks # +################# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +################# +# EtaP # +################# +Decay MyEta' +0.500 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.500 MyEta pi+ pi- PHSP; +Enddecay + +################# +# Rho # +################# +Decay MyRho0 +1.000 pi- pi+ VSS; +Enddecay + +################# +# Eta # +################# +Decay MyEta +1.00 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsEta_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsEta_KstarmKsPi.dec new file mode 100644 index 0000000..21bc514 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsEta_KstarmKsPi.dec @@ -0,0 +1,82 @@ +######################################################### +# # +# Decay: B- -> D0 K*- # +# (D0 -> Ks0 Eta 100%) # +# (Ks -> Pi+ Pi- 100%) # +# (Eta -> pi+pi-pi0 50% Or gg 50%) # +# (K*- -> Ks Pi- 50% Or Pi0 K- 50% ) # +# B+ -> X # +# And Charge Conjugates # +# # +# Author: Paul Stephen Jackson # +# Date: 14/Oct/2003 # +# # +######################################################### + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +Alias MyEta eta + +################# +# U(4s) # +################# +Decay Upsilon(4S) +0.50 MyB- B+ VSS; +0.50 MyB+ B- VSS; +Enddecay + +################# +# B+ # +################# +Decay MyB- +1.00 MyKstar- MyD0 SVS; +Enddecay + +Decay MyB+ +1.00 MyKstar+ Myanti-D0 SVS; +Enddecay + +################# +# Kstar # +################# +Decay MyKstar- +1.00 MyK_S0 pi- VSS; +Enddecay + +Decay MyKstar+ +1.00 MyK_S0 pi+ VSS; +Enddecay + +################# +# D0 # +################# +Decay MyD0 +1.00 MyEta MyK_S0 PHSP; +Enddecay + +Decay Myanti-D0 +1.00 MyEta MyK_S0 PHSP; +Enddecay + +################# +# Ks # +################# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +################# +# Eta # +################# +Decay MyEta +0.50 pi+ pi- pi0 ETA_DALITZ; +0.50 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsKK_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsKK_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..c5758d9 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsKK_Ksmpipi_PHSP.dec @@ -0,0 +1,49 @@ +################################################################# +# # +# Decay: B- -> D0 K*-, B+ -> X + c.c. # +# | # +# `-> K+K- K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K*+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K*- PHSP; +Enddecay +# +Decay MyD0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsKpi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsKpi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..901ae4e --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsKpi_Ksmpipi_PHSP.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> D0 K*-, B+ -> X + c.c. # +# | # +# `-> Kpi K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K*+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K*- PHSP; +Enddecay +# +Decay MyD0 +6.9 K- pi+ MyK_S0 PHSP; +5.2 K+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +6.9 K+ pi- MyK_S0 PHSP; +5.2 K- pi+ MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsOmega_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsOmega_KstarmKPi0.dec new file mode 100644 index 0000000..476250c --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsOmega_KstarmKPi0.dec @@ -0,0 +1,84 @@ +######################################################### +# Decay:B- -> D0 K*- # +# (D0 -> Ks Omega 100%) # +# (Ks -> Pi+ Pi- 100%) # +# (Omega -> Pi+ Pi- Pi0 100%) # +# (K*- -> Pi0 K- 100%) # +# # +# B+ -> X # +# And Charge Conjugates # +# # +# Author: Paul Stephen Jackson # +# Date: 05/Oct/2003 # +# # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +Alias MyOmega omega +# +################# +# U(4s) # +################# +# +Decay Upsilon(4S) +0.50 MyB- B+ VSS; +0.50 MyB+ B- VSS; +Enddecay +# +################# +# B- # +################# +# +Decay MyB- +1.00 MyKstar- MyD0 SVS; +Enddecay +Decay MyB+ +1.00 MyKstar+ Myanti-D0 SVS; +Enddecay +# +################# +# K*- # +################# +# +Decay MyKstar- +1.00 K- pi0 VSS; +Enddecay +Decay MyKstar+ +1.00 K+ pi0 VSS; +Enddecay +# +################# +# D0 # +################# +# +Decay MyD0 +1.00 MyOmega MyK_S0 SVS; +Enddecay +Decay Myanti-D0 +1.00 MyOmega MyK_S0 SVS; +Enddecay +# +################# +# Ks # +################# +# +Decay MyK_S0 +1.00 pi+ pi- PHSP; +Enddecay +# +################# +# Omega # +################# +# +Decay MyOmega +1.00 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsOmega_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsOmega_KstarmKsPi.dec new file mode 100644 index 0000000..934c106 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsOmega_KstarmKsPi.dec @@ -0,0 +1,82 @@ +######################################################### +# # +# Decay:B- -> D0 K*- # +# (D0 -> Ks Omega 100%) # +# (Ks -> Pi+ Pi- 100%) # +# (Omega -> Pi+ Pi- Pi0 100%) # +# (K*- -> Ks Pi- 100%) # +# # +# B+ -> X # +# And Charge Conjugates # +# # +# Author: Paul Stephen Jackson # +# Date: 05/Oct/2003 # +# # +######################################################### + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +Alias MyOmega omega + +################# +# U(4s) # +################# +Decay Upsilon(4S) +0.50 MyB- B+ VSS; +0.50 MyB+ B- VSS; +Enddecay + +################# +# B- # +################# +Decay MyB- +1.00 MyKstar- MyD0 SVS; +Enddecay + +Decay MyB+ +1.00 MyKstar+ Myanti-D0 SVS; +Enddecay + +################# +# K*- # +################# +Decay MyKstar- +1.00 MyK_S0 pi- VSS; +Enddecay + +Decay MyKstar+ +1.00 MyK_S0 pi+ VSS; +Enddecay + +################# +# D0 # +################# +Decay MyD0 +1.00 MyOmega MyK_S0 SVS; +Enddecay + +Decay Myanti-D0 +1.00 MyOmega MyK_S0 SVS; +Enddecay + +################# +# Ks # +################# +Decay MyK_S0 +1.00 pi+ pi- PHSP; +Enddecay + +################# +# Omega # +################# +Decay MyOmega +1.00 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsPhi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsPhi.dec new file mode 100644 index 0000000..01afd8b --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsPhi.dec @@ -0,0 +1,83 @@ +############################################################################### +# # +# Decay: B- -> D0 K*- (D0 -> Ks(Pi+Pi-) Phi(K+K-)) B+ -> X; + cc # +# (50% : K*- -> Ks(Pi+Pi-) Pi-) # +# (50% : K*- -> K- Pi0 ) # +# Author: Guillaume Therin # +# Date: December 18, 2002 # +############################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD0 D0 +Alias MyD0B anti-D0 +Alias MyK0 K0 +Alias MyK0B anti-K0 +Alias MyKs K_S0 +Alias MyPhi phi +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 MyD0B +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ MyD0B SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K0B Phi # +########################################### +# +Decay MyD0 +1.000 MyPhi MyK0B SVS; +Enddecay +Decay MyD0B +1.000 MyPhi MyK0 SVS; +Enddecay +# +Decay MyPhi +1.000 K+ K- VSS; +Enddecay +# +########################################### +# K*- -> 50% Ks(Pi+Pi-) Pi-, 50% K- Pi0 # +########################################### +# +Decay MyK*+ +0.5000 MyKs pi+ VSS; +0.5000 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.5000 MyKs pi- VSS; +0.5000 K- pi0 VSS; +Enddecay +# +########################################### +# K0 and K0B -> 100% && Ks -> 100% Pi+Pi- # +########################################### +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +Decay MyK0B +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsPhi_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsPhi_KstarmKPi0.dec new file mode 100644 index 0000000..50a39ad --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsPhi_KstarmKPi0.dec @@ -0,0 +1,69 @@ +############################################################################### +# Decay: B- -> D0 K*- (D0 -> Ks(Pi+Pi-) Phi(K+K-)) B+ -> X; + cc # +# |-> K- Pi0 # +# Author : Guillaume Therin November 20, 2003 # +############################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +Alias MyPhi phi +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> Ks(Pi+Pi-) Phi # +########################################### +# +Decay MyD0 +1.000 MyPhi MyKs SVS; +Enddecay +Decay Myanti-D0 +1.000 MyPhi MyKs SVS; +Enddecay +# +Decay MyPhi +1.000 K+ K- VSS; +Enddecay +# +########################################### +# K*- -> K- Pi0 # +########################################### +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsPhi_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsPhi_KstarmKsPi.dec new file mode 100644 index 0000000..d80334d --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsPhi_KstarmKsPi.dec @@ -0,0 +1,70 @@ +############################################################################### +# Decay: B- -> D0 K*- (D0 -> Ks(Pi+Pi-) Phi(K+K-)) B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# Author : Guillaume Therin November 20, 2003 # +############################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +Alias MyPhi phi +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> Ks(Pi+Pi-) Phi # +########################################### +# +Decay MyD0 +1.000 MyPhi MyKs SVS; +Enddecay +Decay Myanti-D0 +1.000 MyPhi MyKs SVS; +Enddecay +# +Decay MyPhi +1.000 K+ K- VSS; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsPi0.dec new file mode 100644 index 0000000..dbb44eb --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsPi0.dec @@ -0,0 +1,78 @@ +############################################################################### +# # +# Decay: B- -> D0 K*- (D0 -> Ks(Pi+Pi-) Pi0) B+ -> X; + cc # +# (50% : K*- -> Ks(Pi+Pi-) Pi-) # +# (50% : K*- -> K- Pi0 ) # +# Author: Guillaume Therin # +# Date: December 18, 2002 # +############################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD0 D0 +Alias MyD0B anti-D0 +Alias MyK0 K0 +Alias MyK0B anti-K0 +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 MyD0B +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ MyD0B SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> K0B Pi0 # +########################################### +# +Decay MyD0 +1.000 pi0 MyK0B PHSP; +Enddecay +Decay MyD0B +1.000 pi0 MyK0 PHSP; +Enddecay +# +########################################### +# K*- -> 50% Ks(Pi+Pi-) Pi-, 50% K- Pi0 # +########################################### +# +Decay MyK*+ +0.5000 MyKs pi+ VSS; +0.5000 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.5000 MyKs pi- VSS; +0.5000 K- pi0 VSS; +Enddecay +# +########################################### +# K0 and K0B -> 100% && Ks -> 100% Pi+Pi- # +########################################### +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +Decay MyK0B +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsPi0_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsPi0_KstarmKPi0.dec new file mode 100644 index 0000000..1214bb1 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsPi0_KstarmKPi0.dec @@ -0,0 +1,64 @@ +################################################################### +# Decay: B- -> D0 K*- (D0 -> Ks(Pi+Pi-) Pi0) B+ -> X; + cc # +# |-> K- Pi0 # +# Author: Guillaume Therin November 20, 2003 # +################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> Ks Pi0 # +########################################### +# +Decay MyD0 +1.000 pi0 MyKs PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi0 MyKs PHSP; +Enddecay +# +########################################### +# K*- -> K- Pi0 # +########################################### +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsPi0_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsPi0_KstarmKsPi.dec new file mode 100644 index 0000000..819bdf3 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsPi0_KstarmKsPi.dec @@ -0,0 +1,64 @@ +################################################################### +# Decay: B- -> D0 K*- (D0 -> Ks(Pi+Pi-) Pi0) B+ -> X; + cc # +# |-> Ks(Pi+Pi-) Pi- # +# Author: Guillaume Therin November 20, 2003 # +################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> Ks Pi0 # +########################################### +# +Decay MyD0 +1.000 pi0 MyKs PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi0 MyKs PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKsRho_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mKsRho_KstarmKsPi.dec new file mode 100644 index 0000000..447b3a5 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKsRho_KstarmKsPi.dec @@ -0,0 +1,82 @@ +######################################################### +# Decay:B- -> D0 K*- # +# (K* -> Ks(PiPi) Pi- 100%) # +# (D0 -> Ks Rho 100%) # +# (Ks -> Pi+ Pi- 100%) # +# (Rho -> Pi+ Pi- 100%) # +# (K*- -> Ks Pi- 50% , Pi0 K- 50%) # +# # +# B+ -> X (and charge conjugate) # +# And Charge Conjugates # +# # +# Author: Paul Stephen Jackson # +# Date: 05/Oct/2003 # +# # +######################################################### + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 + +################# +# U(4s) # +################# +Decay Upsilon(4S) +0.50 MyB- B+ VSS; +0.50 MyB+ B- VSS; +Enddecay + +################# +# B- # +################# +Decay MyB- +1.00 MyKstar- MyD0 SVS; +Enddecay + +Decay MyB+ +1.00 MyKstar+ Myanti-D0 SVS; +Enddecay + +################# +# K*- # +################# +Decay MyKstar- +1.00 MyK_S0 pi- VSS; +Enddecay + +Decay MyKstar+ +1.00 MyK_S0 pi+ VSS; +Enddecay + +################# +# D0 # +################# +Decay MyD0 +1.00 MyRho0 MyK_S0 SVS; +Enddecay + +Decay Myanti-D0 +1.00 MyRho0 MyK_S0 SVS; +Enddecay + +################# +# Ks # +################# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +################# +# Rho # +################# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_D0Kstar_D0mKspipi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_D0Kstar_D0mKspipi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..bd6a3fb --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mKspipi_Ksmpipi_PHSP.dec @@ -0,0 +1,49 @@ +################################################################# +# # +# Decay: B- -> D0 K*-, B+ -> X + c.c. # +# | # +# `-> pi+pi- K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K*+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K*- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mPiPi_KstarmKPi0.dec b/BaBar_2014/BpBm_D0Kstar_D0mPiPi_KstarmKPi0.dec new file mode 100644 index 0000000..41b52d8 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mPiPi_KstarmKPi0.dec @@ -0,0 +1,59 @@ +######################################################### +# Decay: B- -> D0 K*- (D0 -> Pi- Pi+) B+ -> X; + cc # +# |-> K- Pi0 # +# Author : Guillaume Therin November 20, 2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> Pi- Pi+ # +########################################### +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> K- Pi0 # +########################################### +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mPiPi_KstarmKsPi.dec b/BaBar_2014/BpBm_D0Kstar_D0mPiPi_KstarmKsPi.dec new file mode 100644 index 0000000..7e62413 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mPiPi_KstarmKsPi.dec @@ -0,0 +1,64 @@ +######################################################### +# Decay: B- -> D0 K*- (D0 -> Pi- Pi+) B+ -> X; + cc # +# |-> Ks(PiPi) Pi- # +# Author : Guillaume Therin November 20, 2003 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyKs K_S0 +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +# +########################################### +# Ups(4s) -> B+ B- # +########################################### +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +########################################### +# B- -> D0 K* # +########################################### +# +Decay MyB+ +1.000 MyK*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 MyK*- MyD0 SVS; +Enddecay +# +########################################### +# D0 -> Pi- Pi+ # +########################################### +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +########################################### +# K*- -> Ks(Pi+Pi-) Pi- # +########################################### +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mpi0pipi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_D0Kstar_D0mpi0pipi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..8bb70c0 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mpi0pipi_Ksmpipi_PHSP.dec @@ -0,0 +1,41 @@ +################################################################# +# # +# Decay: B- -> D0 K*-, B+ -> X + c.c. # +# | # +# `-> pi+pi- pi0 # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K*+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K*- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mpi0pipi_PHSP.dec b/BaBar_2014/BpBm_D0Kstar_D0mpi0pipi_PHSP.dec new file mode 100644 index 0000000..8bb70c0 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mpi0pipi_PHSP.dec @@ -0,0 +1,41 @@ +################################################################# +# # +# Decay: B- -> D0 K*-, B+ -> X + c.c. # +# | # +# `-> pi+pi- pi0 # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 K*+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 K*- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mpipi.dec b/BaBar_2014/BpBm_D0Kstar_D0mpipi.dec new file mode 100644 index 0000000..fd85a07 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mpipi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 K*- (D0 -> pi- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 K*+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 K*- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0Kstar_D0mpipimKK.dec b/BaBar_2014/BpBm_D0Kstar_D0mpipimKK.dec new file mode 100644 index 0000000..28a1ac6 --- /dev/null +++ b/BaBar_2014/BpBm_D0Kstar_D0mpipimKK.dec @@ -0,0 +1,70 @@ +#################################################### +# Decay: B- -> D0(CP) K*-, B+ -> X # +# |-> K+ K- |-> KS pi- # +# |-> pi+ pi- |-> K- pi0 # +# # +# + cc # +# # +# # +# Stephen Levy # +# August 15, 2002 # +# # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyK*+ Myanti-D0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyD0 SVS; +Enddecay +# +Decay MyD0 +0.742 K- K+ PHSP; +0.258 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.742 K+ K- PHSP; +0.258 pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +0.5784 MyKs pi+ VSS; +0.4216 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +0.5784 MyKs pi- VSS; +0.4216 K- pi0 VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_D0_a0p.dec b/BaBar_2014/BpBm_D0_a0p.dec new file mode 100644 index 0000000..50cebe1 --- /dev/null +++ b/BaBar_2014/BpBm_D0_a0p.dec @@ -0,0 +1,135 @@ +################################################### +# # +# Decay: B+ -> D0 - a0+, anti-B0 -> X # +# | # +# -->eta (gg) pi+ # +# # +# # +# Author: H. Snoek # +# Date: 13/jan/04 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyKs K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 + +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myeta eta +Alias Myomega omega +# +# Always one B0 to the signal channel +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00000 Myanti-D0 Mya_0+ PHSP; +Enddecay +# +Decay MyB- +1.00000 MyD0 Mya_0- PHSP; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 MyK0bar pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyK0bar +1.00 MyKs PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_0- +1.000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0barK3pi_Ds1Dstar0K_Kpi.dec b/BaBar_2014/BpBm_D0barK3pi_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..514bc0f --- /dev/null +++ b/BaBar_2014/BpBm_D0barK3pi_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D0bar Ds1+, +# D0bar->K3pi +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD'_s1+kpi MyD0Bk3pi SVS; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_K3pi.dec b/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_K3pi.dec new file mode 100644 index 0000000..f46c109 --- /dev/null +++ b/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_K3pi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D0bar Ds1+, +# D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(K3Pi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD'_s1+k3pi MyD0Bkpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_Kpi.dec b/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..88ffa35 --- /dev/null +++ b/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D0bar Ds1+, +# D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD'_s1+kpi MyD0Bkpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_Kpipi0.dec b/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_Kpipi0.dec new file mode 100644 index 0000000..15d3aa8 --- /dev/null +++ b/BaBar_2014/BpBm_D0barKpi_Ds1Dstar0K_Kpipi0.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D0bar Ds1+, +# D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPiPi0) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD'_s1+kpipi0 MyD0Bkpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0barKpipi0_Ds1Dstar0K_Kpi.dec b/BaBar_2014/BpBm_D0barKpipi0_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..1e30a7a --- /dev/null +++ b/BaBar_2014/BpBm_D0barKpipi0_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D0bar Ds1+, +# D0bar->Kpipi0 +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD'_s1+kpi MyD0Bkpipi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0bar_Kstarp.dec b/BaBar_2014/BpBm_D0bar_Kstarp.dec new file mode 100644 index 0000000..b80d81c --- /dev/null +++ b/BaBar_2014/BpBm_D0bar_Kstarp.dec @@ -0,0 +1,55 @@ +###################################################### +# # +# Decay: B+ -> D0bar K*+, B- -> X # +# |-> K0s K0s |-> K+ pi0 # +# # +# + c.c. # +# # +# Author : Josh Thompson # +# Created: 17 September 2003 # +###################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyK_S0 K_S0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 MyKstar+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 MyKstar- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyKstar+ +1.0000 K+ pi0 PHSP; +Enddecay +# +Decay MyKstar- +1.0000 K- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0barppbarpi_Kpi.dec b/BaBar_2014/BpBm_D0barppbarpi_Kpi.dec new file mode 100644 index 0000000..6caadd7 --- /dev/null +++ b/BaBar_2014/BpBm_D0barppbarpi_Kpi.dec @@ -0,0 +1,44 @@ +####################################################### +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> X # +# | # +# -> D0bar p pbar pi+ # +# | # +# -> K+ pi- # +# # +# Author: Ilya Narsky, Caltech # +# Created: March 18 2004 # +# # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias MyAntiD0 anti-D0 +ChargeConj MyD0 MyAntiD0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyAntiD0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay MyAntiD0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0lnu.dec b/BaBar_2014/BpBm_D0lnu.dec new file mode 100644 index 0000000..a02eb2d --- /dev/null +++ b/BaBar_2014/BpBm_D0lnu.dec @@ -0,0 +1,42 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 l- anti-nu_l # +# |-> K- pi+ # +# l = e or mu # +# +CC # +# # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Mail:SCHUNEM@SLAC.STANFORD.EDU # +# Created: 09/Feb/99 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB- +.5000 MyD0 e- anti-nu_e PHOTOS ISGW2; +.5000 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +.5000 MyD0B e+ nu_e PHOTOS ISGW2; +.5000 MyD0B mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0lnu_Kpi.dec b/BaBar_2014/BpBm_D0lnu_Kpi.dec new file mode 100644 index 0000000..c6621f2 --- /dev/null +++ b/BaBar_2014/BpBm_D0lnu_Kpi.dec @@ -0,0 +1,43 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 l- anti-nu_l # +# |-> K- pi+ # +# l = e or mu # +# +CC # +# # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Copied by Rowan Hamilton for Blifetime studies # +# Mail: METZLER@SLAC.STANFORD.EDU # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB- +.5000 MyD0 e- anti-nu_e PHOTOS ISGW2; +.5000 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +.5000 MyD0B e+ nu_e PHOTOS ISGW2; +.5000 MyD0B mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0lnu_Kpipi.dec b/BaBar_2014/BpBm_D0lnu_Kpipi.dec new file mode 100644 index 0000000..af66256 --- /dev/null +++ b/BaBar_2014/BpBm_D0lnu_Kpipi.dec @@ -0,0 +1,43 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 l- anti-nu_l # +# |-> K- pi+ pi0 # +# l = e or mu # +# +CC # +# # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Modifed by Rowan Hamilton # +# Mail:METZLER@SLAC.STANFORD.EDU # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB- +.5000 MyD0 e- anti-nu_e PHOTOS ISGW2; +.5000 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +.5000 MyD0B e+ nu_e PHOTOS ISGW2; +.5000 MyD0B mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay MyD0B +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0lnu_Kpipipi.dec b/BaBar_2014/BpBm_D0lnu_Kpipipi.dec new file mode 100644 index 0000000..118648f --- /dev/null +++ b/BaBar_2014/BpBm_D0lnu_Kpipipi.dec @@ -0,0 +1,43 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 l- anti-nu_l # +# |-> K- pi+ pi+ pi- # +# l = e or mu # +# +CC # +# # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Modified by Rowan Hamilton # +# Mail:METZLER@SLAC.STANFORD.EDU # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0B anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB- +.5000 MyD0 e- anti-nu_e PHOTOS ISGW2; +.5000 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +.5000 MyD0B e+ nu_e PHOTOS ISGW2; +.5000 MyD0B mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD0 +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0mKpimpi_Xclnu.dec b/BaBar_2014/BpBm_D0mKpimpi_Xclnu.dec new file mode 100644 index 0000000..f95feee --- /dev/null +++ b/BaBar_2014/BpBm_D0mKpimpi_Xclnu.dec @@ -0,0 +1,97 @@ +############################################################################### +# Up(4S) -> B- B+ + CC # +# | | # +# | +-> X_c l- nu_bar (l = e or mu) # +# | # +# +-> D0(K-pi+) pi- # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xclnu b decay +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# -- reco B +Alias rB- B- +Alias rB+ B+ +ChargeConj rB+ rB- +Alias rD0 D0 +Alias ranti-D0 anti-D0 +ChargeConj rD0 ranti-D0 +# +# +Decay Upsilon(4S) +0.50000 rB+ myB- VSS; +0.50000 rB- myB+ VSS; +Enddecay +# ---------------------------------------------------------------------- +# reco B +# +Decay rB+ +1.000 ranti-D0 pi+ PHSP; +Enddecay +# +Decay rB- +1.000 rD0 pi- PHSP; +Enddecay +# +Decay rD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay ranti-D0 +1.000 K+ pi- PHSP; +Enddecay +# ---------------------------------------------------------------------- +# force myB to always decay to X_c l nu +# +Decay myB- +0.0560 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0056 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB+ +0.0560 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0056 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0020 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0056 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0020 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0mKpimpi_Xulnu.dec b/BaBar_2014/BpBm_D0mKpimpi_Xulnu.dec new file mode 100644 index 0000000..aecdcdd --- /dev/null +++ b/BaBar_2014/BpBm_D0mKpimpi_Xulnu.dec @@ -0,0 +1,176 @@ +############################################################################### +# Up(4S) -> B- B+ + CC # +# | | # +# | +-> X_u l- nu_bar (l = e or mu) # +# | # +# +-> D0(K-pi+) pi- # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xulnu b decay +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# -- reco B +Alias rB- B- +Alias rB+ B+ +ChargeConj rB+ rB- +Alias rD0 D0 +Alias ranti-D0 anti-D0 +ChargeConj rD0 ranti-D0 +# +# +Decay Upsilon(4S) +0.50000 rB+ myB- VSS; +0.50000 rB- myB+ VSS; +Enddecay +# ---------------------------------------------------------------------- +# reco B +# +Decay rB+ +1.000 ranti-D0 pi+ PHSP; +Enddecay +# +Decay rB- +1.000 rD0 pi- PHSP; +Enddecay +# +Decay rD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay ranti-D0 +1.000 K+ pi- PHSP; +Enddecay +# ---------------------------------------------------------------------- +# force myB to always decay to X_u l nu +Decay myB- +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000080 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000050 eta' e- anti-nu_e PHOTOS ISGW2; +0.000076 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000095 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000004 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000028 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000003 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000003 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000036 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000036 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000050 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000050 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000016 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000016 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000030 pi(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000036 rho(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000036 omega(2S) e- anti-nu_e PHOTOS ISGW2; +0.000090 pi0 mu- anti-nu_mu ISGW2; +0.000080 eta mu- anti-nu_mu ISGW2; +0.000125 rho0 mu- anti-nu_mu ISGW2; +0.000125 omega mu- anti-nu_mu ISGW2; +0.000050 eta' mu- anti-nu_mu ISGW2; +0.000076 a_10 mu- anti-nu_mu ISGW2; +0.000095 b_10 mu- anti-nu_mu ISGW2; +0.000004 a_00 mu- anti-nu_mu ISGW2; +0.000028 a_20 mu- anti-nu_mu ISGW2; +0.000003 f_0 mu- anti-nu_mu ISGW2; +0.000003 f'_0 mu- anti-nu_mu ISGW2; +0.000036 f_1 mu- anti-nu_mu ISGW2; +0.000036 f'_1 mu- anti-nu_mu ISGW2; +0.000050 h_1 mu- anti-nu_mu ISGW2; +0.000050 h'_1 mu- anti-nu_mu ISGW2; +0.000016 f_2 mu- anti-nu_mu ISGW2; +0.000016 f'_2 mu- anti-nu_mu ISGW2; +0.000030 pi(2S)0 mu- anti-nu_mu ISGW2; +0.000036 rho(2S)0 mu- anti-nu_mu ISGW2; +0.000036 omega(2S) mu- anti-nu_mu ISGW2; +Enddecay +# +Decay myB+ +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000080 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000050 eta' e+ nu_e PHOTOS ISGW2; +0.000076 a_10 e+ nu_e PHOTOS ISGW2; +0.000095 b_10 e+ nu_e PHOTOS ISGW2; +0.000004 a_00 e+ nu_e PHOTOS ISGW2; +0.000028 a_20 e+ nu_e PHOTOS ISGW2; +0.000003 f_0 e+ nu_e PHOTOS ISGW2; +0.000003 f'_0 e+ nu_e PHOTOS ISGW2; +0.000036 f_1 e+ nu_e PHOTOS ISGW2; +0.000036 f'_1 e+ nu_e PHOTOS ISGW2; +0.000050 h_1 e+ nu_e PHOTOS ISGW2; +0.000050 h'_1 e+ nu_e PHOTOS ISGW2; +0.000016 f_2 e+ nu_e PHOTOS ISGW2; +0.000016 f'_2 e+ nu_e PHOTOS ISGW2; +0.000030 pi(2S)0 e+ nu_e PHOTOS ISGW2; +0.000036 rho(2S)0 e+ nu_e PHOTOS ISGW2; +0.000036 omega(2S) e+ nu_e PHOTOS ISGW2; +0.000090 pi0 mu+ nu_mu ISGW2; +0.000080 eta mu+ nu_mu ISGW2; +0.000125 rho0 mu+ nu_mu ISGW2; +0.000125 omega mu+ nu_mu ISGW2; +0.000050 eta' mu+ nu_mu ISGW2; +0.000076 a_10 mu+ nu_mu ISGW2; +0.000095 b_10 mu+ nu_mu ISGW2; +0.000004 a_00 mu+ nu_mu ISGW2; +0.000028 a_20 mu+ nu_mu ISGW2; +0.000003 f_0 mu+ nu_mu ISGW2; +0.000003 f'_0 mu+ nu_mu ISGW2; +0.000036 f_1 mu+ nu_mu ISGW2; +0.000036 f'_1 mu+ nu_mu ISGW2; +0.000050 h_1 mu+ nu_mu ISGW2; +0.000050 h'_1 mu+ nu_mu ISGW2; +0.000016 f_2 mu+ nu_mu ISGW2; +0.000016 f'_2 mu+ nu_mu ISGW2; +0.000030 pi(2S)0 mu+ nu_mu ISGW2; +0.000036 rho(2S)0 mu+ nu_mu ISGW2; +0.000036 omega(2S) mu+ nu_mu ISGW2; +Enddecay +# +Decay pi(2S)+ +0.3500 rho0 pi+ PHSP; +0.3500 rho+ pi0 PHSP; +0.2000 pi+ pi+ pi- PHSP; +0.1000 pi+ pi0 pi0 PHSP; +Enddecay +Decay pi(2S)- +0.3500 rho0 pi- PHSP; +0.3500 rho- pi0 PHSP; +0.2000 pi- pi+ pi- PHSP; +0.1000 pi- pi0 pi0 PHSP; +Enddecay +Decay pi(2S)0 +0.3500 rho+ pi- PHSP; +0.3500 rho- pi+ PHSP; +0.2000 pi+ pi- pi0 PHSP; +0.1000 pi0 pi0 pi0 PHSP; +Enddecay +# +Decay rho(2S)+ +0.4000 pi+ pi0 PHSP; +0.4000 pi+ pi+ pi- pi0 PHSP; +0.2000 pi+ pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)- +0.4000 pi- pi0 PHSP; +0.4000 pi- pi+ pi- pi0 PHSP; +0.2000 pi- pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)0 +0.4000 pi+ pi- PHSP; +0.3500 pi+ pi- pi+ pi- PHSP; +0.1500 pi+ pi- pi0 pi0 PHSP; +0.1000 pi0 pi0 pi0 pi0 PHSP; +Enddecay +Decay omega(2S) +0.5000 rho+ pi- PHSP; +0.5000 rho- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_1.dec b/BaBar_2014/BpBm_D0pi_1.dec new file mode 100644 index 0000000..d81fc29 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_1.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B+ -> D0bar pi+ + c.c. # +# | # +# | # +# ---> K+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> D0bar pi+ using phase space +# with D0bar -> K+ pi- +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_D0pi_1_PHOTOS.dec b/BaBar_2014/BpBm_D0pi_1_PHOTOS.dec new file mode 100644 index 0000000..1341222 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_1_PHOTOS.dec @@ -0,0 +1,46 @@ +################################################### +# # +# B+ -> D0bar pi+ + c.c. # +# | # +# | # +# ---> K+ pi- # +# With FSR active # +# # +# Author: Anders Ryd # +# Mail:ryd@slac.stanford.edu # +# Created: 23/Oct/2000 # +# Based on file from John Back # +# # +################################################### +# +# Decay table for B+ -> D0bar pi+ using phase space +# with D0bar -> K+ pi- +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHOTOS PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHOTOS PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHOTOS PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D0pi_2.dec b/BaBar_2014/BpBm_D0pi_2.dec new file mode 100644 index 0000000..c357d39 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_2.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B+ -> D0bar pi+ + c.c. # +# | # +# | # +# ---> K+ K- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> D0bar pi+ using phase space +# with D0bar -> K+ K- +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_D0pi_3.dec b/BaBar_2014/BpBm_D0pi_3.dec new file mode 100644 index 0000000..5e0dc1b --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_3.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B+ -> D0bar pi+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> D0bar pi+ using phase space +# with D0bar -> pi+ pi- +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_D0pi_D0CabibboNonCP.dec b/BaBar_2014/BpBm_D0pi_D0CabibboNonCP.dec new file mode 100644 index 0000000..dad4e24 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0CabibboNonCP.dec @@ -0,0 +1,97 @@ +##################################################### +# # +# Decay: B- -> D0 pi- B+ -> D0bar pi+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D0 pi- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD0 pi+ PHSP; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_D0pi_D0K0pi0.dec b/BaBar_2014/BpBm_D0pi_D0K0pi0.dec new file mode 100644 index 0000000..312a781 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0K0pi0.dec @@ -0,0 +1,42 @@ +################################################### +# # +# B+ -> D0bar pi+ + c.c. # +# | # +# | # +# ---> K0S pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26 April '00 # +# # +################################################### +# +# Decay table for B+ -> D0bar pi+ using phase space +# with D0bar -> K0S pi0 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mK3pi.dec b/BaBar_2014/BpBm_D0pi_D0mK3pi.dec new file mode 100644 index 0000000..9cd1e45 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mK3pi.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B- -> D0 pi- (D0 -> K- pi+ pi+ pi-) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mK3pi_DCSD.dec b/BaBar_2014/BpBm_D0pi_D0mK3pi_DCSD.dec new file mode 100644 index 0000000..24fc0d2 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mK3pi_DCSD.dec @@ -0,0 +1,36 @@ +################################################################## +# # +# Decay: B- -> D0 pi- (D0 -> K+ pi- pi+ pi-, DCSD) B+ -> X; + cc# +# # +# Author: Malcolm John # +# Date: 4 June 2003 # +################################################################## +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 Myanti-D0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKK.dec b/BaBar_2014/BpBm_D0pi_D0mKK.dec new file mode 100644 index 0000000..7c19225 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKK.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 pi- (D0 -> K- K+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 08/11/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKlpi0.dec b/BaBar_2014/BpBm_D0pi_D0mKlpi0.dec new file mode 100644 index 0000000..6e43e3a --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKlpi0.dec @@ -0,0 +1,40 @@ +################################################################# +# # +# Decay: B- -> D0 pi-, B+ -> X + c.c. # +# | # +# `-> K_L0 pi0 # +# # +# Author: Matt Graham # +# Date: 04/19/04 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K_L0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K_L0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKpi.dec b/BaBar_2014/BpBm_D0pi_D0mKpi.dec new file mode 100644 index 0000000..f160b2a --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKpi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 pi- (D0 -> K- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKpimDCSD.dec b/BaBar_2014/BpBm_D0pi_D0mKpimDCSD.dec new file mode 100644 index 0000000..4040cf2 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKpimDCSD.dec @@ -0,0 +1,36 @@ +########################################################## +# # +# Decay: B- -> D0 pi- (D0 -> K+ pi-, DCSD) B+ -> X; + cc# +# # +# Author: Malcolm John # +# Date: 4 June 2003 # +########################################################## +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 Myanti-D0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKpipi0.dec b/BaBar_2014/BpBm_D0pi_D0mKpipi0.dec new file mode 100644 index 0000000..92b330c --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKpipi0.dec @@ -0,0 +1,36 @@ +############################################################# +# # +# Decay: B- -> D0 pi- (D0 -> K- pi+ pi0) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +############################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKpipi0_DCSD.dec b/BaBar_2014/BpBm_D0pi_D0mKpipi0_DCSD.dec new file mode 100644 index 0000000..29cd502 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKpipi0_DCSD.dec @@ -0,0 +1,37 @@ +############################################################## +# # +# Decay: B- -> D0 pi- (D0 -> K+ pi- pi0, DCSD) B+ -> X; + cc# +# # +# Author: Malcolm John # +# Date: 4 June 2003 # +############################################################## +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# The wrong sign-ness is applied to the B here +Decay MyB+ +1.000 MyD0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 Myanti-D0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKspi0_Ksmpipi.dec b/BaBar_2014/BpBm_D0pi_D0mKspi0_Ksmpipi.dec new file mode 100644 index 0000000..071f087 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKspi0_Ksmpipi.dec @@ -0,0 +1,52 @@ +################################################################# +# # +# Decay: B- -> D0 pi-, B+ -> X + c.c. # +# | # +# `-> K_S0 pi0 # +# | # +# `-> pi+ pi- # +# # +# # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 01/02/03 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKspipi.dec b/BaBar_2014/BpBm_D0pi_D0mKspipi.dec new file mode 100644 index 0000000..6696a94 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKspipi.dec @@ -0,0 +1,38 @@ +################################################################# +# # +# Decay: B- -> D0 pi- , B+ -> X # +# | # +# ----> K0s pi+ pi- # +# + c.c. # +# # +# Author: Kelly E Ford # +# Date: 7 May 2003 # +################################################################# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +1.000 B- B+ MyB- MyB+ VSS_BMIX dm; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mKsrho0_Ksmpipi_rho0mpipi.dec b/BaBar_2014/BpBm_D0pi_D0mKsrho0_Ksmpipi_rho0mpipi.dec new file mode 100644 index 0000000..965b411 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mKsrho0_Ksmpipi_rho0mpipi.dec @@ -0,0 +1,56 @@ +################################################################# +# # +# Decay: B- -> D0 pi-, B+ -> X + c.c. # +# | # +# `-> rho0 K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 01/02/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0momegaKs_omegam3pi_Ksmpipi.dec b/BaBar_2014/BpBm_D0pi_D0momegaKs_omegam3pi_Ksmpipi.dec new file mode 100644 index 0000000..8cace7c --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0momegaKs_omegam3pi_Ksmpipi.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D0 pi-, B+ -> X + c.c. # +# | # +# `-> omega K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myomega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pi_D0mphiKs_phimKK_Ksmpipi.dec b/BaBar_2014/BpBm_D0pi_D0mphiKs_phimKK_Ksmpipi.dec new file mode 100644 index 0000000..b0585b4 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mphiKs_phimKK_Ksmpipi.dec @@ -0,0 +1,58 @@ +################################################################# +# # +# Decay: B- -> D0 pi-, B+ -> X + c.c. # +# | # +# `-> phi K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> K+ K- # +# # +# # +# # +# Author: Giovanni Marchiori # +# Date: 01/02/02 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myphi phi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D0pi_D0mpipi.dec b/BaBar_2014/BpBm_D0pi_D0mpipi.dec new file mode 100644 index 0000000..0a0b510 --- /dev/null +++ b/BaBar_2014/BpBm_D0pi_D0mpipi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 pi- (D0 -> pi- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 08/11/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0pim.dec b/BaBar_2014/BpBm_D0pim.dec new file mode 100644 index 0000000..96e4395 --- /dev/null +++ b/BaBar_2014/BpBm_D0pim.dec @@ -0,0 +1,32 @@ + +#################################################### +# # +# Inclusive D0pi decay.dec # +# # +# D0pi from B+B- for SP2 # +# # +# Decay: B+ -> anti-D0 pi+, B- -> X +c.c. # +# |-> X # +# # +# 5 Feb 99 # +# Philip Hart (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 anti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.0000 D0 pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D0pim_Kspipi.dec b/BaBar_2014/BpBm_D0pim_Kspipi.dec new file mode 100644 index 0000000..5955ae5 --- /dev/null +++ b/BaBar_2014/BpBm_D0pim_Kspipi.dec @@ -0,0 +1,41 @@ +######################################################### +# # +# Decay: B- -> D0 pi- , B+ -> X # +# | # +# ---> K0s pi+ pi- # +# + c.c. # +# # +# Author: Dennis Wright # +# Date: 8 March 2002 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D0 pi+ PHSP; +Enddecay +Decay MyB- +1.000 MyD0 pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K_S0 pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K_S0 pi- pi+ PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_D0ppbarpi_Kpi.dec b/BaBar_2014/BpBm_D0ppbarpi_Kpi.dec new file mode 100644 index 0000000..00d9492 --- /dev/null +++ b/BaBar_2014/BpBm_D0ppbarpi_Kpi.dec @@ -0,0 +1,44 @@ +####################################################### +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> X # +# | # +# -> D0 p pbar pi+ # +# | # +# -> K- pi+ # +# # +# Author: Ilya Narsky, Caltech # +# Created: March 18 2004 # +# # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias MyAntiD0 anti-D0 +ChargeConj MyD0 MyAntiD0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyAntiD0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay MyAntiD0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0rho_D0CabibboNonCP.dec b/BaBar_2014/BpBm_D0rho_D0CabibboNonCP.dec new file mode 100644 index 0000000..478a3a6 --- /dev/null +++ b/BaBar_2014/BpBm_D0rho_D0CabibboNonCP.dec @@ -0,0 +1,97 @@ +##################################################### +# # +# Decay: B- -> D0 rho- B+ -> D0bar rho+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D0 rho- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD0 rho+ PHSP; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_D0rho_D0mK3pi.dec b/BaBar_2014/BpBm_D0rho_D0mK3pi.dec new file mode 100644 index 0000000..a1768e5 --- /dev/null +++ b/BaBar_2014/BpBm_D0rho_D0mK3pi.dec @@ -0,0 +1,36 @@ +################################################################# +# # +# Decay: B- -> D0 rho- (D0 -> K- pi+ pi+ pi-) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 rho- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0rho_D0mKK.dec b/BaBar_2014/BpBm_D0rho_D0mKK.dec new file mode 100644 index 0000000..a84f4e7 --- /dev/null +++ b/BaBar_2014/BpBm_D0rho_D0mKK.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 rho- (D0 -> K- K+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 rho- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0rho_D0mKpi.dec b/BaBar_2014/BpBm_D0rho_D0mKpi.dec new file mode 100644 index 0000000..389a692 --- /dev/null +++ b/BaBar_2014/BpBm_D0rho_D0mKpi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 rho- (D0 -> K- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 rho- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0rho_D0mKpipi0.dec b/BaBar_2014/BpBm_D0rho_D0mKpipi0.dec new file mode 100644 index 0000000..bca064e --- /dev/null +++ b/BaBar_2014/BpBm_D0rho_D0mKpipi0.dec @@ -0,0 +1,36 @@ +############################################################# +# # +# Decay: B- -> D0 rho- (D0 -> K- pi+ pi0) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +############################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 rho- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0rho_D0mKspi0.dec b/BaBar_2014/BpBm_D0rho_D0mKspi0.dec new file mode 100644 index 0000000..fa58a50 --- /dev/null +++ b/BaBar_2014/BpBm_D0rho_D0mKspi0.dec @@ -0,0 +1,38 @@ +################################################################# +# # +# Decay: B- -> D0 rho- , B+ -> X # +# | # +# ----> K0s pi0 # +# + c.c. # +# # +# Author: Kelly E Ford # +# Date: 7 May 2003 # +################################################################# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +1.000 B- B+ MyB- MyB+ VSS_BMIX dm; +Enddecay +# +Decay MyB- +1.000 rho- MyD0 SVS; +Enddecay +# +Decay MyB+ +1.000 rho+ Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0rho_D0mpipi.dec b/BaBar_2014/BpBm_D0rho_D0mpipi.dec new file mode 100644 index 0000000..1c4bad3 --- /dev/null +++ b/BaBar_2014/BpBm_D0rho_D0mpipi.dec @@ -0,0 +1,36 @@ +######################################################### +# # +# Decay: B- -> D0 rho- (D0 -> pi- pi+) B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +######################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ Myanti-D0 SVS; +Enddecay +Decay MyB- +1.000 rho- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starK3pi_D0barstarK3pi_Kminus.dec b/BaBar_2014/BpBm_D0starK3pi_D0barstarK3pi_Kminus.dec new file mode 100644 index 0000000..b5284cd --- /dev/null +++ b/BaBar_2014/BpBm_D0starK3pi_D0barstarK3pi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D*0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD*0k3pi MyD*0Bk3pi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starK3pi_DstarminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0starK3pi_DstarminusK2pi_K0S.dec new file mode 100644 index 0000000..e79ce98 --- /dev/null +++ b/BaBar_2014/BpBm_D0starK3pi_DstarminusK2pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->K3pi,D*-->D-pi0 # +# D- ->k2pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0k3pi MyD*-k2pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starK3pi_DstarminusK3pi_K0S.dec b/BaBar_2014/BpBm_D0starK3pi_DstarminusK3pi_K0S.dec new file mode 100644 index 0000000..b27233b --- /dev/null +++ b/BaBar_2014/BpBm_D0starK3pi_DstarminusK3pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->K3pi,D*-->D0barpi- # +# D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0k3pi MyD*-k3pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starK3pi_DstarminusKpi_K0S.dec b/BaBar_2014/BpBm_D0starK3pi_DstarminusKpi_K0S.dec new file mode 100644 index 0000000..1db38bc --- /dev/null +++ b/BaBar_2014/BpBm_D0starK3pi_DstarminusKpi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->K3pi,D*-->D0barpi- # +# D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0k3pi MyD*-kpi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starK3pi_DstarminusKpipi0_K0S.dec b/BaBar_2014/BpBm_D0starK3pi_DstarminusKpipi0_K0S.dec new file mode 100644 index 0000000..32cec9e --- /dev/null +++ b/BaBar_2014/BpBm_D0starK3pi_DstarminusKpipi0_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->K3pi,D*-->D0barpi- # +# D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0k3pi MyD*-kpipi0 myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpi_D0barstarK3pi_Kminus.dec b/BaBar_2014/BpBm_D0starKpi_D0barstarK3pi_Kminus.dec new file mode 100644 index 0000000..e2ccfcb --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_D0barstarK3pi_Kminus.dec @@ -0,0 +1,213 @@ +####################################################### +# # +# Decay: B-->D*0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD*0kpi MyD*0Bk3pi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starKpi_D0barstarKpi_Kminus.dec b/BaBar_2014/BpBm_D0starKpi_D0barstarKpi_Kminus.dec new file mode 100644 index 0000000..2cdac7a --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_D0barstarKpi_Kminus.dec @@ -0,0 +1,213 @@ +####################################################### +# # +# Decay: B-->D*0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD*0kpi MyD*0Bkpi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starKpi_D0barstarKpipi0_Kminus.dec b/BaBar_2014/BpBm_D0starKpi_D0barstarKpipi0_Kminus.dec new file mode 100644 index 0000000..c97825f --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_D0barstarKpipi0_Kminus.dec @@ -0,0 +1,213 @@ +####################################################### +# # +# Decay: B-->D*0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 04/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD*0kpi MyD*0Bkpipi0 K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starKpi_DminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0starKpi_DminusK2pi_K0S.dec new file mode 100644 index 0000000..3caceb8 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_DminusK2pi_K0S.dec @@ -0,0 +1,44 @@ +####################################################### +# # +# Decay: B0 -> D*0 D- K0s # +# D0->Kpi, D-->K+pi-pi-, K0s->pi+pi- # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD- D- +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias myKs K_S0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +0.1000 MyD*0 MyD- myKs PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starKpi_DstarminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0starKpi_DstarminusK2pi_K0S.dec new file mode 100644 index 0000000..2f768b9 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_DstarminusK2pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpi,D*-->D-pi0 # +# D- ->k2pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpi MyD*-k2pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpi_DstarminusK3pi_K0S.dec b/BaBar_2014/BpBm_D0starKpi_DstarminusK3pi_K0S.dec new file mode 100644 index 0000000..3ae4582 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_DstarminusK3pi_K0S.dec @@ -0,0 +1,216 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpi,D*-->D0barpi- # +# D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpi MyD*-k3pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpi_DstarminusKpi_K0S.dec b/BaBar_2014/BpBm_D0starKpi_DstarminusKpi_K0S.dec new file mode 100644 index 0000000..df136b2 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_DstarminusKpi_K0S.dec @@ -0,0 +1,216 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpi,D*-->D0barpi- # +# D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpi MyD*-kpi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpi_DstarminusKpipi0_K0S.dec b/BaBar_2014/BpBm_D0starKpi_DstarminusKpipi0_K0S.dec new file mode 100644 index 0000000..452b04c --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpi_DstarminusKpipi0_K0S.dec @@ -0,0 +1,216 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpi,D*-->D0barpi- # +# D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 22/March/99 # +# Updated: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpi MyD*-kpipi0 myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpipi0_D0barstarK3pi_Kminus.dec b/BaBar_2014/BpBm_D0starKpipi0_D0barstarK3pi_Kminus.dec new file mode 100644 index 0000000..4921f67 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpipi0_D0barstarK3pi_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D*0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD*0kpipi0 MyD*0Bk3pi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starKpipi0_D0barstarKpipi0_Kminus.dec b/BaBar_2014/BpBm_D0starKpipi0_D0barstarKpipi0_Kminus.dec new file mode 100644 index 0000000..1d65f59 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpipi0_D0barstarKpipi0_Kminus.dec @@ -0,0 +1,212 @@ +####################################################### +# # +# Decay: B-->D*0D*0barK- anti-B0->X # +# # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD*0kpipi0 MyD*0Bkpipi0 K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0starKpipi0_DstarminusK2pi_K0S.dec b/BaBar_2014/BpBm_D0starKpipi0_DstarminusK2pi_K0S.dec new file mode 100644 index 0000000..144e739 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpipi0_DstarminusK2pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->k2pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpipi0 MyD*-k2pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpipi0_DstarminusK3pi_K0S.dec b/BaBar_2014/BpBm_D0starKpipi0_DstarminusK3pi_K0S.dec new file mode 100644 index 0000000..7f20866 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpipi0_DstarminusK3pi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpipi0 MyD*-k3pi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpipi0_DstarminusKpi_K0S.dec b/BaBar_2014/BpBm_D0starKpipi0_DstarminusKpi_K0S.dec new file mode 100644 index 0000000..0651fdd --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpipi0_DstarminusKpi_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpipi0 MyD*-kpi myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0starKpipi0_DstarminusKpipi0_K0S.dec b/BaBar_2014/BpBm_D0starKpipi0_DstarminusKpipi0_K0S.dec new file mode 100644 index 0000000..a73ba23 --- /dev/null +++ b/BaBar_2014/BpBm_D0starKpipi0_DstarminusKpipi0_K0S.dec @@ -0,0 +1,215 @@ +####################################################### +# # +# Decay: B- -> D*0 D*- K0s # +# D0->Kpipi0,D*-->D0barpi- # +# D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 17/Sept/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +# The MyD*- decays: +####################################################### +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +################################################################### +# The MyD*0 decays: +####################################################### +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +####################################################### +# The MyD- decays: +####################################################### +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +####################################################### +# The MyD0 decays: +####################################################### +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +######################## +# The light resonnances: +######################## +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +################################################################# +# And now the Upsilon and the B decays +################################################################# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpipi0 MyD*-kpipi0 myKs PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_D0str0pi_Dpi_Kpipi.dec b/BaBar_2014/BpBm_D0str0pi_Dpi_Kpipi.dec new file mode 100644 index 0000000..11c69f9 --- /dev/null +++ b/BaBar_2014/BpBm_D0str0pi_Dpi_Kpipi.dec @@ -0,0 +1,80 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** pi # +# # +# with D** # +# D0*0 # +# -> D+ pi- # +# # +# D+ -> K- pi+ pi+ # +# # +# + CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December, 2002 # +# # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_0*0 D_0*0 +Alias myanti-D_0*0 anti-D_0*0 +# +Alias myD+ D+ +Alias myD- D- +# +Particle D_0*0 2.308 0.276 +Particle anti-D_0*0 2.308 0.276 +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# B +# +Decay myB+ +1.0000 myanti-D_0*0 pi+ PHSP; +Enddecay +# +Decay myB- +1.0000 myD_0*0 pi- PHSP; +Enddecay + + + +# +# D** +# +Decay myD_0*0 +1.0000 myD+ pi- PHSP; +Enddecay +# +Decay myanti-D_0*0 +1.0000 myD- pi+ PHSP; +Enddecay + + + +# +# D Meson +# +Decay myD+ +# the Dalitz mode below includes K*bar(892)0 pi+, K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +Decay myD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +1.0000 K+ pi- pi- D_DALITZ; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_D0str0pi_Dpi_Kspi.dec b/BaBar_2014/BpBm_D0str0pi_Dpi_Kspi.dec new file mode 100644 index 0000000..87a5625 --- /dev/null +++ b/BaBar_2014/BpBm_D0str0pi_Dpi_Kspi.dec @@ -0,0 +1,82 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** pi # +# # +# with D** # +# D0*0 # +# -> D+ pi- # +# # +# D+ -> Ks0 pi+ # +# # +# + CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# May, 2003 # +# # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_0*0 D_0*0 +Alias myanti-D_0*0 anti-D_0*0 +# +Particle D_0*0 2.308 0.276 +Particle anti-D_0*0 2.308 0.276 +# +Alias myD+ D+ +Alias myD- D- +# +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# Y +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# B +Decay myB+ +1.0000 myanti-D_0*0 pi+ PHSP; +Enddecay +# +Decay myB- +1.0000 myD_0*0 pi- PHSP; +Enddecay + +# D** +Decay myD_0*0 +1.0000 myD+ pi- PHSP; +Enddecay +# +Decay myanti-D_0*0 +1.0000 myD- pi+ PHSP; +Enddecay + +# D Meson +Decay myD+ +1.000 Myanti-K0 pi+ PHSP; +Enddecay + +Decay myD- +1.000 MyK0 pi- PHSP; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D0str0pi_Dpipi.dec b/BaBar_2014/BpBm_D0str0pi_Dpipi.dec new file mode 100644 index 0000000..b0fb6f0 --- /dev/null +++ b/BaBar_2014/BpBm_D0str0pi_Dpipi.dec @@ -0,0 +1,88 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** pi # +# # +# with D** # +# D0*0 # +# |-> D+ pi- # +# |-> K- pi+ pi+ # +# |-> Ks pi+ # +# |-> pi+ pi- # +# # +# + CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# November 2003 # +# # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_0*0 D_0*0 +Alias myanti-D_0*0 anti-D_0*0 +# +Alias myD+ D+ +Alias myD- D- +# +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Particle D_0*0 2.308 0.276 +Particle anti-D_0*0 2.308 0.276 +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# B +# +Decay myB+ +1.0000 myanti-D_0*0 pi+ PHSP; +Enddecay +# +Decay myB- +1.0000 myD_0*0 pi- PHSP; +Enddecay +# +# D** +# +Decay myD_0*0 +1.0000 myD+ pi- PHSP; +Enddecay +# +Decay myanti-D_0*0 +1.0000 myD- pi+ PHSP; +Enddecay +# +# D Meson +# +Decay myD+ +0.0277 Myanti-K0 pi+ PHSP; +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay myD- +0.0277 MyK0 pi- PHSP; +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D10lnu.dec b/BaBar_2014/BpBm_D10lnu.dec new file mode 100644 index 0000000..acd55b4 --- /dev/null +++ b/BaBar_2014/BpBm_D10lnu.dec @@ -0,0 +1,118 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D1(2420)0 l- anti-nu_l # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# K- pi+ pi0 # +# K- pi+ pi+ pi- # +# l = e or mu # +# +CC # +# # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Mail: SCHUNEM@SLAC.STANFORD.EDU # +# Created: 09/Feb/99 # +####################################################### +# +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD_10B anti-D_10 +Alias MyD*- D*- +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +0.5000 MyD_10B e+ nu_e PHOTOS ISGW2; +0.5000 MyD_10B mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB- +0.5000 MyD_10 e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD_10 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD_10B +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +# And now the nightmare ... D0-> KPi , Kpipi0, K3pi +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +Decay MyD0B +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_D10lnu_D0Kpi.dec b/BaBar_2014/BpBm_D10lnu_D0Kpi.dec new file mode 100644 index 0000000..5be0413 --- /dev/null +++ b/BaBar_2014/BpBm_D10lnu_D0Kpi.dec @@ -0,0 +1,65 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D1(2420)0 l- anti-nu_l # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# l = e or mu # +# +CC # +# # +# # +# Author: Shahram Rahatlou, UCSD # +# Mail: RAHATLOU@SLAC.STANFORD.EDU # +# Created: January 21, 2000 # +####################################################### +# +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_10 anti-D_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +0.5000 Myanti-D_10 e+ nu_e PHOTOS ISGW2; +0.5000 Myanti-D_10 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB- +0.5000 MyD_10 e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD_10 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay Myanti-D_10 +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D10lnu_Dstr0PDG_D0Kpi.dec b/BaBar_2014/BpBm_D10lnu_Dstr0PDG_D0Kpi.dec new file mode 100644 index 0000000..63a027e --- /dev/null +++ b/BaBar_2014/BpBm_D10lnu_Dstr0PDG_D0Kpi.dec @@ -0,0 +1,101 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D_10 l nu # +# |-> D*0 pi0 # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_10 D_10 +Alias myanti-D_10 anti-D_10 +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB- +0.5000 myD_10 e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_10 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB+ +0.5000 myanti-D_10 e+ nu_e PHOTOS ISGW2; +0.5000 myanti-D_10 mu+ nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D_10 +# +Decay myD_10 +1.0000 myD*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay myanti-D_10 +1.0000 myanti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_D10lnu_Dstr0pi0.dec b/BaBar_2014/BpBm_D10lnu_Dstr0pi0.dec new file mode 100644 index 0000000..ec02b90 --- /dev/null +++ b/BaBar_2014/BpBm_D10lnu_Dstr0pi0.dec @@ -0,0 +1,103 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** l nu # +# # +# with D** # +# D_10 -> D*0 pi0 # +# # +# with D*0 -> D0 pi0 # +# # +# with D0 -> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# # +# Created: 11/Dec/01 # +# Mail: hauke@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_10 D_10 +Alias myanti-D_10 anti-D_10 +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB+ +0.5000 myanti-D_10 e+ nu_e PHOTOS ISGW2; +0.5000 myanti-D_10 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB- +0.5000 myD_10 e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_10 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D** +# +Decay myD_10 +1.0000 myD*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay myanti-D_10 +1.0000 myanti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0 +# + +Decay myD*0 +1.0000 myD0 pi0 VSS; +Enddecay +Decay myanti-D*0 +1.0000 myanti-D0 pi0 VSS; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_D10pi_D0Kpi.dec b/BaBar_2014/BpBm_D10pi_D0Kpi.dec new file mode 100644 index 0000000..f9f15a8 --- /dev/null +++ b/BaBar_2014/BpBm_D10pi_D0Kpi.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D1(2420)0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_10 anti-D_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD_10 pi- SVS; +Enddecay +# +Decay Myanti-D_10 +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D10pi_D0Kpipi0.dec b/BaBar_2014/BpBm_D10pi_D0Kpipi0.dec new file mode 100644 index 0000000..64b48a4 --- /dev/null +++ b/BaBar_2014/BpBm_D10pi_D0Kpipi0.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D1(2420)0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ pi0 # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_10 anti-D_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD_10 pi- SVS; +Enddecay +# +Decay Myanti-D_10 +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D10pi_D0Kpipipi.dec b/BaBar_2014/BpBm_D10pi_D0Kpipipi.dec new file mode 100644 index 0000000..c5d8eda --- /dev/null +++ b/BaBar_2014/BpBm_D10pi_D0Kpipipi.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D1(2420)0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_10 anti-D_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD_10 pi- SVS; +Enddecay +# +Decay Myanti-D_10 +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D10pi_D0Kspipi.dec b/BaBar_2014/BpBm_D10pi_D0Kspipi.dec new file mode 100644 index 0000000..391b035 --- /dev/null +++ b/BaBar_2014/BpBm_D10pi_D0Kspipi.dec @@ -0,0 +1,79 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D1(2420)0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_10 anti-D_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD_10 pi- SVS; +Enddecay +# +Decay Myanti-D_10 +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +1.000 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# + +End + diff --git a/BaBar_2014/BpBm_D10pi_Dstpipi.dec b/BaBar_2014/BpBm_D10pi_Dstpipi.dec new file mode 100644 index 0000000..1cc4c73 --- /dev/null +++ b/BaBar_2014/BpBm_D10pi_Dstpipi.dec @@ -0,0 +1,88 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D1(2420)0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# |-> K- pi+ pi0 # +# |-> K- pi+ pi+ pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# November 2003 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_10 anti-D_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD_10 pi- SVS; +Enddecay +# +Decay Myanti-D_10 +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0129 K- pi+ pi+ pi- PHSP; +0.0540 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0129 K+ pi- pi- pi+ PHSP; +0.0540 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +# +End + diff --git a/BaBar_2014/BpBm_D10pim.dec b/BaBar_2014/BpBm_D10pim.dec new file mode 100644 index 0000000..7b98607 --- /dev/null +++ b/BaBar_2014/BpBm_D10pim.dec @@ -0,0 +1,54 @@ +#################################################### +# # +# Inclusive D10pi decay.dec # +# # +# D10 pi from B+B- for SP2 # +# # +# Decay: B- -> D_10 pi-, B+ -> X +c.c. # +# |-> D*+ pi - # +# |-> D0 pi+ # +# |-> X # +# # +# 11.11.99 # +# S.Xella (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_10 D_10 +Alias Myanti-D_10 anti-D_10 +Alias MyD*+ D*+ +Alias MyD*- D*- + +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_10 pi+ PHSP; +Enddecay +# +Decay Myanti-D_10 +1.0000 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +##### +Decay MyB- +1.0000 MyD_10 pi- PHSP; +Enddecay +# +Decay MyD_10 +1.0000 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D1prime0lnu_D0Kpi.dec b/BaBar_2014/BpBm_D1prime0lnu_D0Kpi.dec new file mode 100644 index 0000000..45ed65a --- /dev/null +++ b/BaBar_2014/BpBm_D1prime0lnu_D0Kpi.dec @@ -0,0 +1,68 @@ +################################################################### +# # +# Decay: B+ -> X B- -> D'_10 l- anti-nu_l # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# # +# Mail: VSHARMA@SLAC.STANFORD.EDU # +################################################################### + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD'_10 D'_10 +Alias Myanti-D'_10 anti-D'_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + + +# +Decay Upsilon(4S) +0.5000 MyB- B+ VSS; +0.5000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB- +0.5000 MyD'_10 e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD'_10 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +0.5000 Myanti-D'_10 e+ nu_e PHOTOS ISGW2; +0.5000 Myanti-D'_10 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD'_10 +1.0000 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myanti-D'_10 +1.0000 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D1prime0pi_D0Kpi.dec b/BaBar_2014/BpBm_D1prime0pi_D0Kpi.dec new file mode 100644 index 0000000..d8e0ac9 --- /dev/null +++ b/BaBar_2014/BpBm_D1prime0pi_D0Kpi.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D'_10(broad) pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D'_10 anti-D'_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D'_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 pi- SVS; +Enddecay +# +Decay Myanti-D'_10 +1.0000 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_10 +1.0000 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D1prime0pi_D0Kpipi0.dec b/BaBar_2014/BpBm_D1prime0pi_D0Kpipi0.dec new file mode 100644 index 0000000..c04f07a --- /dev/null +++ b/BaBar_2014/BpBm_D1prime0pi_D0Kpipi0.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D'_10(broad) pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ pi0 # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D'_10 anti-D'_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D'_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 pi- SVS; +Enddecay +# +Decay Myanti-D'_10 +1.0000 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_10 +1.0000 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D1prime0pi_D0Kpipipi.dec b/BaBar_2014/BpBm_D1prime0pi_D0Kpipipi.dec new file mode 100644 index 0000000..725ce54 --- /dev/null +++ b/BaBar_2014/BpBm_D1prime0pi_D0Kpipipi.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D'_10(broad) pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D'_10 anti-D'_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D'_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 pi- SVS; +Enddecay +# +Decay Myanti-D'_10 +1.0000 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_10 +1.0000 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D1prime0pi_D0Kspipi.dec b/BaBar_2014/BpBm_D1prime0pi_D0Kspipi.dec new file mode 100644 index 0000000..f046fa0 --- /dev/null +++ b/BaBar_2014/BpBm_D1prime0pi_D0Kspipi.dec @@ -0,0 +1,78 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D'_10(broad) pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D'_10 anti-D'_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D'_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 pi- SVS; +Enddecay +# +Decay Myanti-D'_10 +1.0000 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_10 +1.0000 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +1.000 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D1prime0pi_Dstpipi.dec b/BaBar_2014/BpBm_D1prime0pi_Dstpipi.dec new file mode 100644 index 0000000..2955a3f --- /dev/null +++ b/BaBar_2014/BpBm_D1prime0pi_Dstpipi.dec @@ -0,0 +1,89 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D'_10(broad) pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# |-> K- pi+ pi0 # +# |-> K- pi+ pi+ pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# November 2003 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D'_10 anti-D'_10 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D'_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 pi- SVS; +Enddecay +# +Decay Myanti-D'_10 +1.0000 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_10 +1.0000 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0129 K- pi+ pi+ pi- PHSP; +0.0540 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0129 K+ pi- pi- pi+ PHSP; +0.0540 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/BpBm_D2S0lnu_D0Kpi.dec b/BaBar_2014/BpBm_D2S0lnu_D0Kpi.dec new file mode 100644 index 0000000..a9254e2 --- /dev/null +++ b/BaBar_2014/BpBm_D2S0lnu_D0Kpi.dec @@ -0,0 +1,69 @@ +################################################################### +# # +# Decay: B+ -> X B- -> D(2S)0 l- anti-nu_l # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# Author: Francesca Bucci # +# Mail: BUCCIFRA@SLAC.STANFORD.EDU # +################################################################### + + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD(2S)0 D(2S)0 +Alias Myanti-D(2S)0 anti-D(2S)0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + + +# +Decay Upsilon(4S) +0.5000 MyB- B+ VSS; +0.5000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB- +0.5000 MyD(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +0.5000 Myanti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.5000 Myanti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD(2S)0 +1.0000 MyD*+ pi- SVS; +Enddecay +# +Decay Myanti-D(2S)0 +1.0000 MyD*- pi+ SVS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D2Sstr0lnu_D0Kpi.dec b/BaBar_2014/BpBm_D2Sstr0lnu_D0Kpi.dec new file mode 100644 index 0000000..75a0136 --- /dev/null +++ b/BaBar_2014/BpBm_D2Sstr0lnu_D0Kpi.dec @@ -0,0 +1,68 @@ +################################################################### +# # +# Decay: B+ -> X B- -> D*(2S)0 l- anti-nu_l # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# Author: Francesca Bucci # +# Mail: BUCCIFRA@SLAC.STANFORD.EDU # +################################################################### + + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD*(2S)0 D*(2S)0 +Alias Myanti-D*(2S)0 anti-D*(2S)0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + + +# +Decay Upsilon(4S) +0.5000 MyB- B+ VSS; +0.5000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB- +0.5000 MyD*(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +0.5000 Myanti-D*(2S)0 e+ nu_e PHOTOS ISGW2; +0.5000 Myanti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD*(2S)0 +1.0000 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myanti-D*(2S)0 +1.0000 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D2str0lnu.dec b/BaBar_2014/BpBm_D2str0lnu.dec new file mode 100644 index 0000000..5d724c4 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0lnu.dec @@ -0,0 +1,118 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D2(2460)*0 l- anti-nu_l # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# K- pi+ pi0 # +# K- pi+ pi+ pi- # +# # +# l = e or mu # +# +CC # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Mail: SCHUNEM@SLAC.STANFORD.EDU # +# Created: 09/Feb/99 # +####################################################### +# +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD_2*0B anti-D_2*0 +Alias MyD*- D*- +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB- +0.5000 MyD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +0.5000 MyD_2*0B e+ nu_e PHOTOS ISGW2; +0.5000 MyD_2*0B mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD_2*0 +1.0000 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*0B +1.0000 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 MyD0B pi- VSS; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +# And now the nightmare ... D0-> KPi , Kpipi0, K3pi +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +Decay MyD0B +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_D2str0lnu_D0Kpi.dec b/BaBar_2014/BpBm_D2str0lnu_D0Kpi.dec new file mode 100644 index 0000000..473e423 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0lnu_D0Kpi.dec @@ -0,0 +1,69 @@ +################################################################### +# # +# Decay: B+ -> X B- -> D_2*0 l- anti-nu_l # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# # +# # +# with l= e or mu # +# # +# +CC # +# # +# Mail: VSHARMA@SLAC.STANFORD.EDU # +# # +################################################################### + + +Alias MyB- B- +Alias MyB+ B+ +Alias MyD_2*0 D_2*0 +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyantiD0 anti-D0 + + +# +Decay Upsilon(4S) +0.5000 MyB- B+ VSS; +0.5000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB- +0.5000 MyD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.5000 MyD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB+ +0.5000 Myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.5000 Myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyD_2*0 +1.0000 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Myanti-D_2*0 +1.0000 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyantiD0 +1.0000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D2str0lnu_Dpi.dec b/BaBar_2014/BpBm_D2str0lnu_Dpi.dec new file mode 100644 index 0000000..763e901 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0lnu_Dpi.dec @@ -0,0 +1,99 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** l nu # +# # +# with D** # +# D2*0 -> D0 pi0 # +# -> D+ pi- # +# # +# with D0 -> K- pi+ # +# D+ -> K- pi+ pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# # +# Created: 11/Dec/01 # +# Mail: hauke@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_2*0 D_2*0 +Alias myanti-D_2*0 anti-D_2*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +Alias myD+ D+ +Alias myD- D- +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB+ +0.5000 myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.5000 myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB- +0.5000 myD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D** +# +Decay myD_2*0 +0.5000 myD0 pi0 TSS; +0.5000 myD+ pi- TSS; +Enddecay +# +Decay myanti-D_2*0 +0.5000 myanti-D0 pi0 TSS; +0.5000 myD- pi+ TSS; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +Decay myD+ +# the Dalitz mode below includes K*bar(892)0 pi+, K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +Decay myD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +1.0000 K+ pi- pi- D_DALITZ; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_D2str0lnu_Dstr0PDG_D0Kpi.dec b/BaBar_2014/BpBm_D2str0lnu_Dstr0PDG_D0Kpi.dec new file mode 100644 index 0000000..21e3986 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0lnu_Dstr0PDG_D0Kpi.dec @@ -0,0 +1,100 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D_2*0 l nu # +# |-> D*0 pi0 # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_2*0 D_2*0 +Alias myanti-D_2*0 anti-D_2*0 +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB- +0.5000 myD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB+ +0.5000 myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.5000 myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D_2*0 +# +Decay myD_2*0 +1.0000 myD*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay myanti-D_2*0 +1.0000 myanti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_D2str0lnu_Dstr0pi0.dec b/BaBar_2014/BpBm_D2str0lnu_Dstr0pi0.dec new file mode 100644 index 0000000..7fd6240 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0lnu_Dstr0pi0.dec @@ -0,0 +1,103 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** l nu # +# # +# with D** # +# D2*0 -> D*0 pi0 # +# # +# with D*0 -> D0 pi0 # +# # +# with D0 -> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# # +# Created: 11/Dec/01 # +# Mail: hauke@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_2*0 D_2*0 +Alias myanti-D_2*0 anti-D_2*0 +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB+ +0.5000 myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.5000 myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB- +0.5000 myD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.5000 myD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D** +# +Decay myD_2*0 +1.0000 myD*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay myanti-D_2*0 +1.0000 myanti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0 +# + +Decay myD*0 +1.0000 myD0 pi0 VSS; +Enddecay +Decay myanti-D*0 +1.0000 myanti-D0 pi0 VSS; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_D2str0pi_D0Kpi.dec b/BaBar_2014/BpBm_D2str0pi_D0Kpi.dec new file mode 100644 index 0000000..7de7edf --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_D0Kpi.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D2(2460)*0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_2*0 pi+ STS; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 pi- STS; +Enddecay +# +Decay Myanti-D_2*0 +1.0000 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*0 +1.0000 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D2str0pi_D0Kpipi0.dec b/BaBar_2014/BpBm_D2str0pi_D0Kpipi0.dec new file mode 100644 index 0000000..23c7913 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_D0Kpipi0.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D2(2460)*0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ pi0 # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_2*0 pi+ STS; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 pi- STS; +Enddecay +# +Decay Myanti-D_2*0 +1.0000 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*0 +1.0000 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D2str0pi_D0Kpipipi.dec b/BaBar_2014/BpBm_D2str0pi_D0Kpipipi.dec new file mode 100644 index 0000000..b87069c --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_D0Kpipipi.dec @@ -0,0 +1,62 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D2(2460)*0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_2*0 pi+ STS; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 pi- STS; +Enddecay +# +Decay Myanti-D_2*0 +1.0000 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*0 +1.0000 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D2str0pi_D0Kspipi.dec b/BaBar_2014/BpBm_D2str0pi_D0Kspipi.dec new file mode 100644 index 0000000..a195f1b --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_D0Kspipi.dec @@ -0,0 +1,77 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D2(2460)*0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> Ks pi+ pi- # +# +CC |-> pi+ pi- # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_2*0 pi+ STS; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 pi- STS; +Enddecay +# +Decay Myanti-D_2*0 +1.0000 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*0 +1.0000 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +1.000 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D2str0pi_Dpi_Kpipi.dec b/BaBar_2014/BpBm_D2str0pi_Dpi_Kpipi.dec new file mode 100644 index 0000000..7178de4 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_Dpi_Kpipi.dec @@ -0,0 +1,83 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** pi # +# # +# with D** # +# D2*0 # +# -> D+ pi- # +# # +# D+ -> K- pi+ pi+ # +# # +# + CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December, 2002 # +# # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_2*0 D_2*0 +Alias myanti-D_2*0 anti-D_2*0 +# +Alias myD+ D+ +Alias myD- D- +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB+ +1.0000 myanti-D_2*0 pi+ STS; +Enddecay +# +Decay myB- +1.0000 myD_2*0 pi- STS; +Enddecay + + + +# +# D** +# +Decay myD_2*0 +1.0000 myD+ pi- TSS; +Enddecay +# +Decay myanti-D_2*0 +1.0000 myD- pi+ TSS; +Enddecay + + + +# +# D Meson +# +Decay myD+ +# the Dalitz mode below includes K*bar(892)0 pi+, K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +Decay myD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +1.0000 K+ pi- pi- D_DALITZ; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_D2str0pi_Dpi_Kspi.dec b/BaBar_2014/BpBm_D2str0pi_Dpi_Kspi.dec new file mode 100644 index 0000000..7b51a8d --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_Dpi_Kspi.dec @@ -0,0 +1,79 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** pi # +# # +# with D** # +# D2*0 # +# -> D+ pi- # +# # +# D+ -> Ks0 pi+ # +# # +# + CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December, 2002 # +# # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_2*0 D_2*0 +Alias myanti-D_2*0 anti-D_2*0 +# +Alias myD+ D+ +Alias myD- D- +# +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# Y +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# B +Decay myB+ +1.0000 myanti-D_2*0 pi+ STS; +Enddecay +# +Decay myB- +1.0000 myD_2*0 pi- STS; +Enddecay + +# D** +Decay myD_2*0 +1.0000 myD+ pi- TSS; +Enddecay +# +Decay myanti-D_2*0 +1.0000 myD- pi+ TSS; +Enddecay + +# D Meson +Decay myD+ +1.000 Myanti-K0 pi+ PHSP; +Enddecay + +Decay myD- +1.000 MyK0 pi- PHSP; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D2str0pi_Dpipi.dec b/BaBar_2014/BpBm_D2str0pi_Dpipi.dec new file mode 100644 index 0000000..f575c38 --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_Dpipi.dec @@ -0,0 +1,85 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** pi # +# # +# with D** # +# D2*0 # +# |-> D+ pi- # +# |-> K- pi+ pi+ # +# |-> Ks pi+ # +# |-> pi+ pi- # +# + CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# November 2003 # +# # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_2*0 D_2*0 +Alias myanti-D_2*0 anti-D_2*0 +# +Alias myD+ D+ +Alias myD- D- +# +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# B +# +Decay myB+ +1.0000 myanti-D_2*0 pi+ STS; +Enddecay +# +Decay myB- +1.0000 myD_2*0 pi- STS; +Enddecay +# +# D** +# +Decay myD_2*0 +1.0000 myD+ pi- TSS; +Enddecay +# +Decay myanti-D_2*0 +1.0000 myD- pi+ TSS; +Enddecay +# +# D Meson +# +Decay myD+ +0.0277 Myanti-K0 pi+ PHSP; +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay myD- +0.0277 MyK0 pi- PHSP; +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D2str0pi_Dstpipi.dec b/BaBar_2014/BpBm_D2str0pi_Dstpipi.dec new file mode 100644 index 0000000..16cdacb --- /dev/null +++ b/BaBar_2014/BpBm_D2str0pi_Dstpipi.dec @@ -0,0 +1,88 @@ +####################################################### +# # +# Decay: B+ -> X B- ->D2(2460)*0 pi- # +# |->D*+ pi- # +# |-> D0 pi+ # +# |-> K- pi+ # +# |-> K- pi+ pi0 # +# |-> K- pi+ pi+ pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_2*0 pi+ STS; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 pi- STS; +Enddecay +# +Decay Myanti-D_2*0 +1.0000 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*0 +1.0000 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0129 K- pi+ pi+ pi- PHSP; +0.0540 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0129 K+ pi- pi- pi+ PHSP; +0.0540 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +# +End + diff --git a/BaBar_2014/BpBm_DD_exclusive.dec b/BaBar_2014/BpBm_DD_exclusive.dec new file mode 100644 index 0000000..36b6d40 --- /dev/null +++ b/BaBar_2014/BpBm_DD_exclusive.dec @@ -0,0 +1,210 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B0 -> D*(2010)- D*(2010)+ anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD+ Myanti-D0 PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD- MyD0 PHSP; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 MyD0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK_S0 pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 K_S0 pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/BpBm_DKstar0.dec b/BaBar_2014/BpBm_DKstar0.dec new file mode 100644 index 0000000..49f1330 --- /dev/null +++ b/BaBar_2014/BpBm_DKstar0.dec @@ -0,0 +1,70 @@ +#################################################### +# Decay: B- -> D- K*0bar, B+ -> X # +# |-> K pi pi |-> KS pi0 # +# |-> Ks pi |-> K- pi+ # +# # +# + cc # +# # +# # +# Stephen Levy # +# August 15, 2002 # +# # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyK*0 MyD+ SVS; +Enddecay +# +Decay MyB- +1.0000 Myanti-K*0 MyD- SVS; +Enddecay +# +Decay MyD+ +0.905 K- pi+ pi+ D_DALITZ; +0.095 MyKs pi+ PHSP; +Enddecay +# +Decay MyD- +0.905 K+ pi- pi- D_DALITZ; +0.095 MyKs pi- PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_D_10_rhom.dec b/BaBar_2014/BpBm_D_10_rhom.dec new file mode 100644 index 0000000..2c08e32 --- /dev/null +++ b/BaBar_2014/BpBm_D_10_rhom.dec @@ -0,0 +1,31 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D_10 rho background from B+B- for SP3 # +# # +# Decay: B- -> D_10 rho-, B+ -> X +c.c. # +# # +# 30.6.2000, A. Soffer (IHB AWG) # +# # +#################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 anti-D_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.000 D_10 rho- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D_10a1m_DstarD0pi.dec b/BaBar_2014/BpBm_D_10a1m_DstarD0pi.dec new file mode 100644 index 0000000..103e842 --- /dev/null +++ b/BaBar_2014/BpBm_D_10a1m_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D_10 a1- decay.dec # +# # +# Decay: B- -> D_10 a1-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 18 jun 01 Fabrizio Salvatore (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyantiD_10 anti-D_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_10 a_1+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_10 a_1- PHSP; +Enddecay +# +Decay MyD_10 +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiD_10 +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_D_10pim_DstarD0pi.dec b/BaBar_2014/BpBm_D_10pim_DstarD0pi.dec new file mode 100644 index 0000000..efe8040 --- /dev/null +++ b/BaBar_2014/BpBm_D_10pim_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D_10 pi- decay.dec # +# # +# Decay: B- -> D_10 pi-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyantiD_10 anti-D_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD_10 pi- SVS; +Enddecay +# +Decay MyD_10 +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiD_10 +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_D_10rhom_DstarD0pi.dec b/BaBar_2014/BpBm_D_10rhom_DstarD0pi.dec new file mode 100644 index 0000000..a939d5c --- /dev/null +++ b/BaBar_2014/BpBm_D_10rhom_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D_10 rho- decay.dec # +# # +# Decay: B- -> D_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyantiD_10 anti-D_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_10 rho- PHSP; +Enddecay +# +Decay MyD_10 +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiD_10 +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0K3pi.dec b/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0K3pi.dec new file mode 100644 index 0000000..7b42eda --- /dev/null +++ b/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0K3pi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D_10 rho- decay.dec # +# # +# Decay: B- -> D_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyantiD_10 anti-D_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_10 rho- PHSP; +Enddecay +# +Decay MyD_10 +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiD_10 +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0Kpi.dec b/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..696e7ee --- /dev/null +++ b/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0Kpi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D_10 rho- decay.dec # +# # +# Decay: B- -> D_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyantiD_10 anti-D_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_10 rho- PHSP; +Enddecay +# +Decay MyD_10 +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiD_10 +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0Kpipi0.dec b/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0Kpipi0.dec new file mode 100644 index 0000000..b46b128 --- /dev/null +++ b/BaBar_2014/BpBm_D_10rhom_DstarD0pi_D0Kpipi0.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D_10 rho- decay.dec # +# # +# Decay: B- -> D_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_10 D_10 +Alias MyantiD_10 anti-D_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_10 rho- PHSP; +Enddecay +# +Decay MyD_10 +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyantiD_10 +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D_2star0a1m_DstarD0pi.dec b/BaBar_2014/BpBm_D_2star0a1m_DstarD0pi.dec new file mode 100644 index 0000000..bff76a7 --- /dev/null +++ b/BaBar_2014/BpBm_D_2star0a1m_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D_2*0 a1- decay.dec # +# # +# Decay: B- -> D_2*0 a1-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 18 jun 01 Fabrizio Salvatore (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyantiD_2*0 anti-D_2*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_2*0 a_1+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 a_1- PHSP; +Enddecay +# +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD_2*0 +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_D_2star0pim_DstarD0pi.dec b/BaBar_2014/BpBm_D_2star0pim_DstarD0pi.dec new file mode 100644 index 0000000..b3e62e3 --- /dev/null +++ b/BaBar_2014/BpBm_D_2star0pim_DstarD0pi.dec @@ -0,0 +1,54 @@ +#################################################### +# # +# Inclusive D10pi decay.dec # +# # +# D_2*0 pi from B+B- for SP2 # +# # +# Decay: B- -> D_2*0 pi-, B+ -> X +c.c. # +# |-> D*+ pi - # +# |-> D0 pi+ # +# |-> X # +# # +# 11.11.99 # +# S.Xella (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias Myanti-D_2*0 anti-D_2*0 +Alias MyD*+ D*+ +Alias MyD*- D*- + +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D_2*0 pi+ STS; +Enddecay +# +Decay MyD_2*0 +1.0 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +##### +Decay MyB- +1.0000 MyD_2*0 pi- STS; +Enddecay +# +Decay Myanti-D_2*0 +1.0 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi.dec b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi.dec new file mode 100644 index 0000000..911d9f6 --- /dev/null +++ b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D_2*0 rho- decay.dec # +# # +# Decay: B- -> D_2*0 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyantiD_2*0 anti-D_2*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_2*0 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 rho- PHSP; +Enddecay +# +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD_2*0 +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0K3pi.dec b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0K3pi.dec new file mode 100644 index 0000000..70041b1 --- /dev/null +++ b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0K3pi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D_2*0 rho- decay.dec # +# # +# Decay: B- -> D_2*0 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyantiD_2*0 anti-D_2*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_2*0 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 rho- PHSP; +Enddecay +# +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD_2*0 +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0Kpi.dec b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..c46e40d --- /dev/null +++ b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0Kpi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D_2*0 rho- decay.dec # +# # +# Decay: B- -> D_2*0 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyantiD_2*0 anti-D_2*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_2*0 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 rho- PHSP; +Enddecay +# +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD_2*0 +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0Kpipi0.dec b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0Kpipi0.dec new file mode 100644 index 0000000..09787a1 --- /dev/null +++ b/BaBar_2014/BpBm_D_2star0rhom_DstarD0pi_D0Kpipi0.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D_2*0 rho- decay.dec # +# # +# Decay: B- -> D_2*0 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_2*0 D_2*0 +Alias MyantiD_2*0 anti-D_2*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD_2*0 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD_2*0 rho- PHSP; +Enddecay +# +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD_2*0 +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KK3pi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KK3pi.dec new file mode 100644 index 0000000..cc778f3 --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KK3pi.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKpi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKpi.dec new file mode 100644 index 0000000..e306873 --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKpi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKpipi0.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKpipi0.dec new file mode 100644 index 0000000..66f2da1 --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKpipi0.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKspipi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKspipi.dec new file mode 100644 index 0000000..2131200 --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Ks0KKspipi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KK3pi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KK3pi.dec new file mode 100644 index 0000000..704316a --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KK3pi.dec @@ -0,0 +1,167 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKpi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKpi.dec new file mode 100644 index 0000000..5fe0bb8 --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKpi.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKpipi0.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKpipi0.dec new file mode 100644 index 0000000..294512f --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKpipi0.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKspipi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKspipi.dec new file mode 100644 index 0000000..f537fd8 --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_Kstar0KKspipi.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiK3pi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiK3pi.dec new file mode 100644 index 0000000..ab37a3e --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiK3pi.dec @@ -0,0 +1,163 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKpi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKpi.dec new file mode 100644 index 0000000..15d85cd --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKpi.dec @@ -0,0 +1,138 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKpipi0.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKpipi0.dec new file mode 100644 index 0000000..5accabf --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKpipi0.dec @@ -0,0 +1,138 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKspipi.dec b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKspipi.dec new file mode 100644 index 0000000..af0d22d --- /dev/null +++ b/BaBar_2014/BpBm_D_sstarD0_D_sgD0_phipiKspipi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_1 Myanti-D0_2 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD_s*+_1 +1.0000 MyD_s+_1 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Denubar_DmKpi.dec b/BaBar_2014/BpBm_Denubar_DmKpi.dec new file mode 100644 index 0000000..539fc9f --- /dev/null +++ b/BaBar_2014/BpBm_Denubar_DmKpi.dec @@ -0,0 +1,40 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 e- anti-nu_e # +# --> K- pi+ # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 06/Feb/04 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# + +Decay MyB+ +1.0000 MyD0b e+ anti-nu_e ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD0 e- nu_e ISGW2; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay# + +End diff --git a/BaBar_2014/BpBm_Denubar_DmKpipi0.dec b/BaBar_2014/BpBm_Denubar_DmKpipi0.dec new file mode 100644 index 0000000..271e659 --- /dev/null +++ b/BaBar_2014/BpBm_Denubar_DmKpipi0.dec @@ -0,0 +1,40 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 e- anti-nu_e # +# --> K- pi+ pi0 # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 06/Feb/04 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# + +Decay MyB+ +1.0000 MyD0b e+ anti-nu_e ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD0 e- nu_e ISGW2; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- pi0 PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay# + +End diff --git a/BaBar_2014/BpBm_DlnuXCocktail_taunu.dec b/BaBar_2014/BpBm_DlnuXCocktail_taunu.dec new file mode 100644 index 0000000..6b066c2 --- /dev/null +++ b/BaBar_2014/BpBm_DlnuXCocktail_taunu.dec @@ -0,0 +1,133 @@ +## B->TauNu Vs D(e,mu)nuX cocktail : by Mousumi Datta (cut and paste from existing files) +## The D0 decay modes are same as those in the Breco cocktail for charged B mesons. +## Mixed by Jan Stark (Cut and paste from existing files, plus +## appropriate weighting). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.0560 Myanti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 e+ nu_e PHOTOS ISGW2; +0.0560 Myanti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay MyB- +0.0560 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 e- anti-nu_e PHOTOS ISGW2; +0.0560 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +# force myB to always decay to tau nu_tau +# +Decay B- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +Decay B+ +1.0000 tau+ nu_tau SLN; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 VSS; +0.381 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_DlnuX_D0mKpimKpipipimKpipimKspipi_Xclnu.dec b/BaBar_2014/BpBm_DlnuX_D0mKpimKpipipimKpipimKspipi_Xclnu.dec new file mode 100644 index 0000000..1e6dec0 --- /dev/null +++ b/BaBar_2014/BpBm_DlnuX_D0mKpimKpipipimKpipimKspipi_Xclnu.dec @@ -0,0 +1,140 @@ +############################################################################### +# Up(4S) -> B- B+ + CC # +# | | # +# | +-> X_c l+ nu (l = e or mu) # +# | # +# +-> D0(K-pi+ K-pipipi K-pipi0 Ks0pipi) l- nu # +# # +# # +# # +# # +# Mail: dattam@slac.stanford.edu, sekula@slac.stanford.edu # +############################################################################### +# -- Xclnu b decay +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# -- reco B +Alias rB- B- +Alias rB+ B+ +ChargeConj rB+ rB- +Alias rD0 D0 +Alias ranti-D0 anti-D0 +ChargeConj rD0 ranti-D0 +Alias rD*0 D*0 +Alias ranti-D*0 anti-D*0 +ChargeConj rD*0 ranti-D*0 +Alias rKs K_S0 +# +# +Decay Upsilon(4S) +0.50000 rB+ myB- VSS; +0.50000 rB- myB+ VSS; +Enddecay +# ---------------------------------------------------------------------- +# reco B +# +Decay rB+ +0.0560 ranti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 ranti-D0 e+ nu_e PHOTOS ISGW2; +0.0560 ranti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 ranti-D0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +Decay rB- +0.0560 rD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 rD0 e- anti-nu_e PHOTOS ISGW2; +0.0560 rD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 rD0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +# +# +Decay rD*0 +0.6190 rD0 pi0 VSS; +0.3810 rD0 gamma VSP_PWAVE; +Enddecay +# +Decay ranti-D*0 +0.6190 ranti-D0 pi0 VSS; +0.3810 ranti-D0 gamma VSP_PWAVE; +Enddecay +# +# +Decay rD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0129 K- pi+ pi+ pi- PHSP; +0.0270 rKs pi+ pi- PHSP; +Enddecay +# +Decay ranti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0129 K+ pi- pi- pi+ PHSP; +0.0270 rKs pi- pi+ PHSP; +Enddecay +# +Decay rKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +# +# ---------------------------------------------------------------------- +# force myB to always decay to X_c l nu +# +Decay myB- +0.0560 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0056 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB+ +0.0560 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0056 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0020 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0056 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0020 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Dmppbar2pip_K2pi.dec b/BaBar_2014/BpBm_Dmppbar2pip_K2pi.dec new file mode 100644 index 0000000..cafe0dd --- /dev/null +++ b/BaBar_2014/BpBm_Dmppbar2pip_K2pi.dec @@ -0,0 +1,44 @@ +####################################################### +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> X # +# | # +# -> D- p pbar pi+ pi+ # +# | # +# -> K+ pi- pi- # +# # +# Author: Ilya Narsky, Caltech # +# Created: March 18 2004 # +# # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD- p+ anti-p- pi+ pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD+ p+ anti-p- pi- pi- PHSP; +Enddecay +# +Decay MyD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dmunubar_DmKpi.dec b/BaBar_2014/BpBm_Dmunubar_DmKpi.dec new file mode 100644 index 0000000..c5064d7 --- /dev/null +++ b/BaBar_2014/BpBm_Dmunubar_DmKpi.dec @@ -0,0 +1,41 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 mu- anti-nu_mu # +# --> K- pi+ # +# l = e or mu # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 06/Feb/04 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# + +Decay MyB+ +1.0000 MyD0b mu+ anti-nu_mu ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD0 mu- nu_mu ISGW2; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay# + +End diff --git a/BaBar_2014/BpBm_Dmunubar_DmKpipi0.dec b/BaBar_2014/BpBm_Dmunubar_DmKpipi0.dec new file mode 100644 index 0000000..a33fe7f --- /dev/null +++ b/BaBar_2014/BpBm_Dmunubar_DmKpipi0.dec @@ -0,0 +1,40 @@ +################################################### +# # +# Decay: B+ -> X B- ->D0 mu- anti-nu_mu # +# --> K- pi+ pi0 # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 06/Feb/04 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# + +Decay MyB+ +1.0000 MyD0b mu+ anti-nu_mu ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD0 mu- nu_mu ISGW2; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- pi0 PHSP; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay# + +End diff --git a/BaBar_2014/BpBm_DpKs.dec b/BaBar_2014/BpBm_DpKs.dec new file mode 100644 index 0000000..857fb30 --- /dev/null +++ b/BaBar_2014/BpBm_DpKs.dec @@ -0,0 +1,257 @@ + +#################################################### +# # +# # +# # +# Decay: B+ -> D+ Ks , B- -> X +c.c. # +# # +# # +# 17 Apr 02 # +# Riccardo Faccini # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD+ D+ +Alias MyD- D- +# +Alias my-a_1+ a_1+ +Alias my-a_1- a_1- +# +Alias my-anti-K0 anti-K0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 +# +Alias my-K*0 K*0 +Alias my-anti-K*0 anti-K*0 +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +## +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD+ my-K_S0 PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD- my-K_S0 PHSP; +Enddecay + +# +Decay MyD+ +# +# +# Ks pi +0.0098 my-anti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# these 4 modes below are K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ and non res +#0.0127 my-anti-K*0 pi+ SVS; +#0.0230 my-anti-K_0*0 pi+ PHSP; +#0.0037 my-anti-K''*0 pi+ SVS; +#0.0850 K- pi+ pi+ PHSP; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ my-anti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 my-anti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 my-anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 my-anti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 my-a_1+ my-anti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 my-anti-K0 rho0 pi+ PHSP; +0.0027 my-anti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +# +Decay MyD- +# +# +# Ks pi +0.0098 my-K0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# these 4 modes below are K*(892)0 pi-, +# K*(1430)0 pi-, and K*(1680)0 pi- and non res +#0.0127 my-K*0 pi- SVS; +#0.0230 my-K_0*0 pi- PHSP; +#0.0037 my-K''*0 pi- SVS; +#0.0850 K+ pi- pi- PHSP; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- my-K0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 my-K0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 my-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 my-K*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 my-a_1- my-K0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 my-K0 rho0 pi- PHSP; +0.0027 my-K0 pi- pi- pi+ PHSP; +Enddecay +# +# +# +# +# Redefined modes +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay +# +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +# +Decay my2-K*0 +0.3323 my-K0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 my-anti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 my-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 my-anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 my-K0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 my-anti-K0 pi- VSS; +Enddecay +# +# +Decay my-a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +# +End + + + diff --git a/BaBar_2014/BpBm_Dpipi_nonres.dec b/BaBar_2014/BpBm_Dpipi_nonres.dec new file mode 100644 index 0000000..ae4df71 --- /dev/null +++ b/BaBar_2014/BpBm_Dpipi_nonres.dec @@ -0,0 +1,60 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D+ pi- pi- (nonresonant) # +# |-> K- pi+ pi+ # +# |-> Ks pi+ # +# |-> pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD+ D+ +Alias MyB+ B+ +Alias MyD- D- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyD+ pi- pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 MyD- pi+ pi+ PHSP; +Enddecay +# +Decay MyD- +0.0277 MyK0 pi- PHSP; +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +0.0277 Myanti-K0 pi+ PHSP; +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dpipi_nonres_KPiPi.dec b/BaBar_2014/BpBm_Dpipi_nonres_KPiPi.dec new file mode 100644 index 0000000..0d0b783 --- /dev/null +++ b/BaBar_2014/BpBm_Dpipi_nonres_KPiPi.dec @@ -0,0 +1,43 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D+ pi- pi- (nonresonant) # +# |-> K- pi+ pi+ # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD+ D+ +Alias MyB+ B+ +Alias MyD- D- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyD+ pi- pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 MyD- pi+ pi+ PHSP; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DplusK2pi_DminusK2pi_Kminus.dec b/BaBar_2014/BpBm_DplusK2pi_DminusK2pi_Kminus.dec new file mode 100644 index 0000000..7f4bbc4 --- /dev/null +++ b/BaBar_2014/BpBm_DplusK2pi_DminusK2pi_Kminus.dec @@ -0,0 +1,33 @@ +####################################################### +# # +# Decay: B- -> D+ D- K- # +# D+->K2pi # +# D-->k2pi # +# Author: Jean-Pierre Lees # +# Created: 30/Nov/00 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD+ D+ +Alias MyD- D- +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD+ MyD- K- PHSP; +Enddecay +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +Decay MyD+ +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DplusK2pi_DstarminusK3pi_Kminus.dec b/BaBar_2014/BpBm_DplusK2pi_DstarminusK3pi_Kminus.dec new file mode 100644 index 0000000..916c4ae --- /dev/null +++ b/BaBar_2014/BpBm_DplusK2pi_DstarminusK3pi_Kminus.dec @@ -0,0 +1,59 @@ +####################################################### +# # +# Decay: B- -> D+ D*- K- # +# D+->K2pi # +# D*-->D0barpi- D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 30/Nov/00 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD+ D+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD+ MyD*- K- PHSP; +Enddecay +# +Decay MyD+ +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +# +Decay MyD0B +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DplusK2pi_DstarminusKpi_Kminus.dec b/BaBar_2014/BpBm_DplusK2pi_DstarminusKpi_Kminus.dec new file mode 100644 index 0000000..a4d8cc0 --- /dev/null +++ b/BaBar_2014/BpBm_DplusK2pi_DstarminusKpi_Kminus.dec @@ -0,0 +1,38 @@ +####################################################### +# # +# Decay: B- -> D+ D*- K- # +# D+->K2pi # +# D*-->D0barpi- D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 30/Nov/00 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD+ D+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD+ MyD*- K- PHSP; +Enddecay +# +Decay MyD+ +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DplusK2pi_DstarminusKpipi0_Kminus.dec b/BaBar_2014/BpBm_DplusK2pi_DstarminusKpipi0_Kminus.dec new file mode 100644 index 0000000..f78f0ac --- /dev/null +++ b/BaBar_2014/BpBm_DplusK2pi_DstarminusKpipi0_Kminus.dec @@ -0,0 +1,38 @@ +####################################################### +# # +# Decay: B- -> D+ D*- K- # +# D+->K2pi # +# D*-->D0barpi- D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 30/Nov/00 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD+ D+ +Alias MyD*- D*- +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD+ MyD*- K- PHSP; +Enddecay +# +Decay MyD+ +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +# +Decay MyD0B +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dpppbar_K2pi.dec b/BaBar_2014/BpBm_Dpppbar_K2pi.dec new file mode 100644 index 0000000..5955700 --- /dev/null +++ b/BaBar_2014/BpBm_Dpppbar_K2pi.dec @@ -0,0 +1,44 @@ +####################################################### +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> X # +# | # +# -> D+ p pbar # +# | # +# -> K- pi+ pi+ # +# # +# Author: Ilya Narsky, Caltech # +# Created: March 18 2004 # +# # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD+ p+ anti-p- PHSP; +Enddecay +# +Decay MyB- +1.000 MyD- p+ anti-p- PHSP; +Enddecay +# +Decay MyD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dpppbarpippim_K2pi.dec b/BaBar_2014/BpBm_Dpppbarpippim_K2pi.dec new file mode 100644 index 0000000..220fb61 --- /dev/null +++ b/BaBar_2014/BpBm_Dpppbarpippim_K2pi.dec @@ -0,0 +1,44 @@ +####################################################### +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> X # +# | # +# -> D+ p pbar pi+ pi- # +# | # +# -> K- pi+ pi+ # +# # +# Author: Ilya Narsky, Caltech # +# Created: March 18 2004 # +# # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD- D- +Alias MyD+ D+ +ChargeConj MyD+ MyD- +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyD+ p+ anti-p- pi+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 MyD- p+ anti-p- pi+ pi- PHSP; +Enddecay +# +Decay MyD+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dprime10lnu_Dstr0PDG_D0Kpi.dec b/BaBar_2014/BpBm_Dprime10lnu_Dstr0PDG_D0Kpi.dec new file mode 100644 index 0000000..8cdd654 --- /dev/null +++ b/BaBar_2014/BpBm_Dprime10lnu_Dstr0PDG_D0Kpi.dec @@ -0,0 +1,100 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D'_10 l nu # +# |-> D*0 pi0 # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD'_10 D'_10 +Alias myanti-D'_10 anti-D'_10 +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB- +0.5000 myD'_10 e- anti-nu_e PHOTOS ISGW2; +0.5000 myD'_10 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB+ +0.5000 myanti-D'_10 e+ nu_e PHOTOS ISGW2; +0.5000 myanti-D'_10 mu+ nu_mu PHOTOS ISGW2; +Enddecay + + + +# +# D'_10 +# +Decay myD'_10 +1.0000 myD*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay myanti-D'_10 +1.0000 myanti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_Dprime_10a1m_DstarD0pi.dec b/BaBar_2014/BpBm_Dprime_10a1m_DstarD0pi.dec new file mode 100644 index 0000000..a2f7993 --- /dev/null +++ b/BaBar_2014/BpBm_Dprime_10a1m_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D'_10 a1- decay.dec # +# # +# Decay: B- -> D'_10 a1-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 18 jun 01 Fabrizio Salvatore (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyantiD'_10 anti-D'_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD'_10 a_1+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 a_1- PHSP; +Enddecay +# +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD'_10 +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dprime_10pim_DstarD0pi.dec b/BaBar_2014/BpBm_Dprime_10pim_DstarD0pi.dec new file mode 100644 index 0000000..7154f9d --- /dev/null +++ b/BaBar_2014/BpBm_Dprime_10pim_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D'_10 pi- decay.dec # +# # +# Decay: B- -> D'_10 pi-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyantiD'_10 anti-D'_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD'_10 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 pi- SVS; +Enddecay +# +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD'_10 +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi.dec b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi.dec new file mode 100644 index 0000000..1a3fc89 --- /dev/null +++ b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi.dec @@ -0,0 +1,51 @@ +#################################################### +# # +# Inclusive B- -> D'_10 rho- decay.dec # +# # +# Decay: B- -> D'_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyantiD'_10 anti-D'_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD'_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 rho- PHSP; +Enddecay +# +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD'_10 +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 D0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 anti-D0 pi- VSS; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0K3pi.dec b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0K3pi.dec new file mode 100644 index 0000000..11d95e0 --- /dev/null +++ b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0K3pi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D'_10 rho- decay.dec # +# # +# Decay: B- -> D'_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyantiD'_10 anti-D'_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD'_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 rho- PHSP; +Enddecay +# +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD'_10 +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0Kpi.dec b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0Kpi.dec new file mode 100644 index 0000000..2fb07cb --- /dev/null +++ b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0Kpi.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D'_10 rho- decay.dec # +# # +# Decay: B- -> D'_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyantiD'_10 anti-D'_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD'_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 rho- PHSP; +Enddecay +# +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD'_10 +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0Kpipi0.dec b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0Kpipi0.dec new file mode 100644 index 0000000..5d5c29e --- /dev/null +++ b/BaBar_2014/BpBm_Dprime_10rhom_DstarD0pi_D0Kpipi0.dec @@ -0,0 +1,60 @@ +#################################################### +# # +# Inclusive B- -> D'_10 rho- decay.dec # +# # +# Decay: B- -> D'_10 eho-, B0 -> X +c.c. # +# |-> D*+ pi- # +# |-> D0 pi+ # +# |-> X # +# # +# # +# 6 sep 00 Abi Soffer (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD'_10 D'_10 +Alias MyantiD'_10 anti-D'_10 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 MyB+ B- VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.0000 MyantiD'_10 rho+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyD'_10 rho- PHSP; +Enddecay +# +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyantiD'_10 +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +1.0000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DsD0_phipiKpi.dec b/BaBar_2014/BpBm_DsD0_phipiKpi.dec new file mode 100644 index 0000000..8418bc4 --- /dev/null +++ b/BaBar_2014/BpBm_DsD0_phipiKpi.dec @@ -0,0 +1,103 @@ +############################################################ +# # +# Exclusive DD decay.dec #2 # +# # +# DD . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds D0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# DsD0_phipiKpi.dec # +# # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + +#CDecay MyD*- +#CDecay MyD- +CDecay MyD_s- +#CDecay MyD_s*- +#CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + diff --git a/BaBar_2014/BpBm_DsStar_phi_00.dec b/BaBar_2014/BpBm_DsStar_phi_00.dec new file mode 100644 index 0000000..a5468da --- /dev/null +++ b/BaBar_2014/BpBm_DsStar_phi_00.dec @@ -0,0 +1,87 @@ +#----------------------------------------- +# Upsilon --> B+B- +# B- --> Anything +# B+ --> Ds*+ phi +# Ds*+ --> Ds+ gamma +# Ds+ --> phi pi+ phi -->K+ K- +# --> anti-K*0 K+ anti-K*0 -->K- pi+ +# --> Ks K+ Ks -->pi+pi- +# phi --> K+ K- +# (+ charge conjugate) +# +# +# This uses SVV_HELAMP with H+ = H- = 0 and H0=1 (and no phases) +# +# Claudio Campagnari 6 March 2003 +#---------------------------------------------- +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_s*- D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyPhi phi +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0 MyPhi MyD_s*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB+ +1.0 MyPhi MyD_s*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +0.340 MyPhi pi+ SVS; +0.423 Myanti-K*0 K+ SVS; +0.237 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyD_s- +0.340 MyPhi pi- SVS; +0.423 MyK*0 K- SVS; +0.237 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DsStar_phi_11.dec b/BaBar_2014/BpBm_DsStar_phi_11.dec new file mode 100644 index 0000000..51d6f25 --- /dev/null +++ b/BaBar_2014/BpBm_DsStar_phi_11.dec @@ -0,0 +1,87 @@ +#----------------------------------------- +# Upsilon --> B+B- +# B- --> Anything +# B+ --> Ds*+ phi +# Ds*+ --> Ds+ gamma +# Ds+ --> phi pi+ phi -->K+ K- +# --> anti-K*0 K+ anti-K*0 -->K- pi+ +# --> Ks K+ Ks -->pi+pi- +# phi --> K+ K- +# (+ charge conjugate) +# +# +# This uses SVV_HELAMP with H+ = H- = 1 and H0=0 (and no phases) +# +# Claudio Campagnari 6 March 2003 +#---------------------------------------------- +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_s*- D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyPhi phi +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0 MyPhi MyD_s*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB+ +1.0 MyPhi MyD_s*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +0.340 MyPhi pi+ SVS; +0.423 Myanti-K*0 K+ SVS; +0.237 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyD_s- +0.340 MyPhi pi- SVS; +0.423 MyK*0 K- SVS; +0.237 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_D0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Ds_D0_KstarK_k3pi.dec new file mode 100755 index 0000000..acd0c72 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_D0_KstarK_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D0 B- -> X # +# | | # +# K*K K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_D0_KstarK_kpi.dec b/BaBar_2014/BpBm_Ds_D0_KstarK_kpi.dec new file mode 100755 index 0000000..1f33b17 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_D0_KstarK_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D0 B- -> X # +# | | # +# K*K Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_D0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Ds_D0_KstarK_kpipi0.dec new file mode 100755 index 0000000..794f8b9 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_D0_KstarK_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D0 B- -> X # +# | | # +# K*K Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_D0_phipi_k3pi.dec b/BaBar_2014/BpBm_Ds_D0_phipi_k3pi.dec new file mode 100755 index 0000000..c853433 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_D0_phipi_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D0 B- -> X # +# | | # +# phipi K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_D0_phipi_kpi.dec b/BaBar_2014/BpBm_Ds_D0_phipi_kpi.dec new file mode 100755 index 0000000..94bafe6 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_D0_phipi_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D0 B- -> X # +# | | # +# phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_D0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Ds_D0_phipi_kpipi0.dec new file mode 100755 index 0000000..4561d7c --- /dev/null +++ b/BaBar_2014/BpBm_Ds_D0_phipi_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D0 B- -> X # +# | | # +# phipi Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_D0_recomodes.dec b/BaBar_2014/BpBm_Ds_D0_recomodes.dec new file mode 100644 index 0000000..fa5573b --- /dev/null +++ b/BaBar_2014/BpBm_Ds_D0_recomodes.dec @@ -0,0 +1,152 @@ +############################################################ +# # +# Exclusive DsD* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 fix bug fot Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ Myanti-D0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0D0gamma_recomodes.dec b/BaBar_2014/BpBm_Ds_Dstar0D0gamma_recomodes.dec new file mode 100644 index 0000000..bb123f5 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0D0gamma_recomodes.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive DsD* decay.dec # +# # +# DsD*0 . from B+ B- for SP3 (D*0->D0gamma) # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Ds_Dstar0_KstarK_k3pi.dec new file mode 100755 index 0000000..557bd0a --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0_KstarK_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# K*K K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpi.dec b/BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpi.dec new file mode 100755 index 0000000..1433a25 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# K*K Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpipi0.dec new file mode 100755 index 0000000..9cfbaf0 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0_KstarK_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# K*K Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0_phipi_k3pi.dec b/BaBar_2014/BpBm_Ds_Dstar0_phipi_k3pi.dec new file mode 100755 index 0000000..f7d67c0 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0_phipi_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | |-D0 pi0,gamma # +# phipi K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0_phipi_kpi.dec b/BaBar_2014/BpBm_Ds_Dstar0_phipi_kpi.dec new file mode 100755 index 0000000..d0bbb1a --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0_phipi_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Ds_Dstar0_phipi_kpipi0.dec new file mode 100755 index 0000000..0c5ef1a --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0_phipi_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# phipi Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Dstar0_recomodes.dec b/BaBar_2014/BpBm_Ds_Dstar0_recomodes.dec new file mode 100644 index 0000000..06a340f --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Dstar0_recomodes.dec @@ -0,0 +1,152 @@ +############################################################ +# # +# Exclusive DsD* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_Kstar0_recomodes.dec b/BaBar_2014/BpBm_Ds_Kstar0_recomodes.dec new file mode 100644 index 0000000..e8a4e34 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_Kstar0_recomodes.dec @@ -0,0 +1,85 @@ +############################################################ +# # +# Exclusive Ds Kstar decay.dec # +# # +# Decay: B+ -> Ds+ anti-K*0 B- -> X # +# | |-> K- pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: A. Merchant 2/May/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK*02 K*0 +Alias Myanti-K*02 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +# +ChargeConj Myanti-K*02 MyK*02 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-K*0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*02 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*02 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*02 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_Ds_a10_recomodes.dec b/BaBar_2014/BpBm_Ds_a10_recomodes.dec new file mode 100644 index 0000000..f6cb005 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_a10_recomodes.dec @@ -0,0 +1,79 @@ +############################################################ +# # +# Exclusive Ds rho decay.dec # +# # +# Decay: B+ -> Ds+ a_10 B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 a_10 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + diff --git a/BaBar_2014/BpBm_Ds_phi.dec b/BaBar_2014/BpBm_Ds_phi.dec new file mode 100644 index 0000000..9f232c0 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_phi.dec @@ -0,0 +1,73 @@ +#----------------------------------------- +# Upsilon --> B+B- +# B- --> Anything +# B+ --> Ds+ phi +# Ds+ --> phi pi+ phi -->K+ K- +# --> anti-K*0 K+ anti-K*0 -->K- pi+ +# --> Ks K+ Ks -->pi+pi- +# phi --> K+ K- +# (+ charge conjugate) +# +# Claudio Campagnari 6 March 2003 +#---------------------------------------------- +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +Alias MyPhi phi +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0 MyPhi MyD_s- SVS; +Enddecay +# +Decay MyB+ +1.0 MyPhi MyD_s+ SVS; +Enddecay +# +Decay MyD_s+ +0.340 MyPhi pi+ SVS; +0.423 Myanti-K*0 K+ SVS; +0.237 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyD_s- +0.340 MyPhi pi- SVS; +0.423 MyK*0 K- SVS; +0.237 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_pi0_recomodes.dec b/BaBar_2014/BpBm_Ds_pi0_recomodes.dec new file mode 100644 index 0000000..eb88759 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_pi0_recomodes.dec @@ -0,0 +1,75 @@ +############################################################ +# # +# Exclusive Dspi0 decay.dec # +# # +# Decay: B+ -> Ds+ pi0 B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Ds_rho0_recomodes.dec b/BaBar_2014/BpBm_Ds_rho0_recomodes.dec new file mode 100644 index 0000000..ce03487 --- /dev/null +++ b/BaBar_2014/BpBm_Ds_rho0_recomodes.dec @@ -0,0 +1,79 @@ +############################################################ +# # +# Exclusive Ds rho decay.dec # +# # +# Decay: B+ -> Ds+ rho0 B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: A. Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 rho0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + diff --git a/BaBar_2014/BpBm_Dspi0_DsetaPpi.dec b/BaBar_2014/BpBm_Dspi0_DsetaPpi.dec new file mode 100644 index 0000000..7d27663 --- /dev/null +++ b/BaBar_2014/BpBm_Dspi0_DsetaPpi.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Exclusive Ds pi decay.dec # +# # +# Decay: B+ -> Ds+ pi0 B- -> X # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 22/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB+ MyB- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +1.0000 MyetaP pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dspi0_Dsetapi.dec b/BaBar_2014/BpBm_Dspi0_Dsetapi.dec new file mode 100644 index 0000000..f0d9fd8 --- /dev/null +++ b/BaBar_2014/BpBm_Dspi0_Dsetapi.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Exclusive Ds pi decay.dec # +# # +# Decay: B+ -> Ds+ pi0 B- -> X # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB+ MyB- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_Dsrho0_DsetaPpi.dec b/BaBar_2014/BpBm_Dsrho0_DsetaPpi.dec new file mode 100644 index 0000000..8499a0e --- /dev/null +++ b/BaBar_2014/BpBm_Dsrho0_DsetaPpi.dec @@ -0,0 +1,52 @@ +############################################################ +# # +# Exclusive Ds rho decay.dec # +# # +# Decay: B+ -> Ds+ rho0 B- -> X # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 22/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 rho0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +1.0000 MyetaP pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsrho0_Dsetapi.dec b/BaBar_2014/BpBm_Dsrho0_Dsetapi.dec new file mode 100644 index 0000000..7597e2b --- /dev/null +++ b/BaBar_2014/BpBm_Dsrho0_Dsetapi.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Exclusive Ds rho decay.dec # +# # +# Decay: B+ -> Ds+ rho0 B- -> X # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 rho0 MyD_s+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_k3pi.dec new file mode 100755 index 0000000..457a378 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_k3pi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s0*+KstarK Myanti-D0K3pi PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_kpi.dec new file mode 100755 index 0000000..8a69df9 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_kpi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s0*+KstarK Myanti-D0Kpi PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_kpipi0.dec new file mode 100755 index 0000000..04e2092 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_D0_KstarK_kpipi0.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s0*+KstarK Myanti-D0Kpipi0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_k3pi.dec new file mode 100755 index 0000000..a70a1a5 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_k3pi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s0*+ Myanti-D0K3pi PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_kpi.dec new file mode 100755 index 0000000..e7322e2 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_kpi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s0*+ Myanti-D0Kpi PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_kpipi0.dec new file mode 100755 index 0000000..a086fe6 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_D0_phipi_kpipi0.dec @@ -0,0 +1,213 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- + + +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s0*+ Myanti-D0Kpipi0 PHSP; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_k3pi.dec new file mode 100755 index 0000000..40ad69d --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_k3pi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s0*+KstarK SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_kpi.dec new file mode 100755 index 0000000..1507e94 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_kpi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s0*+KstarK SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_kpipi0.dec new file mode 100755 index 0000000..0dbcb15 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_KstarK_kpipi0.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +Alias MyD_s0*+KstarK D_s0*+ +Alias MyD_s0*-KstarK D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD_s0*+KstarK MyD_s0*-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s0*+KstarK SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD_s0*+KstarK +1.0000 MyD_s+KstarK pi0 PHSP; +Enddecay +CDecay MyD_s0*-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_k3pi.dec new file mode 100755 index 0000000..fe7fbe0 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_k3pi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s0*+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_kpi.dec new file mode 100755 index 0000000..176aa97 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_kpi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s0*+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_kpipi0.dec new file mode 100755 index 0000000..3f47900 --- /dev/null +++ b/BaBar_2014/BpBm_Dss0toDspi0_Dstar0_phipi_kpipi0.dec @@ -0,0 +1,248 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s0*+ D_s0*+ +Alias MyD_s0*- D_s0*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s0*+ MyD_s0*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s0*+ SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s0*+ +1.0000 MyD_s+ pi0 PHSP; +Enddecay +CDecay MyD_s0*- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_k3pi.dec new file mode 100644 index 0000000..038768a --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_k3pi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0K3pi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_kpi.dec new file mode 100644 index 0000000..3237d36 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_kpi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0Kpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_kpipi0.dec new file mode 100644 index 0000000..e4c35b9 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_D0_KstarK_kpipi0.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0Kpipi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_k3pi.dec new file mode 100644 index 0000000..dadd855 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_k3pi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0K3pi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_kpi.dec new file mode 100644 index 0000000..77a8581 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_kpi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0Kpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_kpipi0.dec new file mode 100644 index 0000000..045c8c3 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_D0_phipi_kpipi0.dec @@ -0,0 +1,213 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- + + +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0Kpipi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_k3pi.dec new file mode 100644 index 0000000..b3c4922 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_k3pi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_kpi.dec new file mode 100644 index 0000000..ea85c21 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_kpi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_kpipi0.dec new file mode 100644 index 0000000..312b00a --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_KstarK_kpipi0.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_k3pi.dec new file mode 100644 index 0000000..580a2d6 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_k3pi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_kpi.dec new file mode 100644 index 0000000..df3fdee --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_kpi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_kpipi0.dec new file mode 100644 index 0000000..72062c9 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsgamma_Dstar0_phipi_kpipi0.dec @@ -0,0 +1,248 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_k3pi.dec new file mode 100644 index 0000000..72ba312 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_k3pi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0K3pi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_kpi.dec new file mode 100644 index 0000000..a9e875c --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_kpi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0Kpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_kpipi0.dec new file mode 100644 index 0000000..0638b31 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_D0_KstarK_kpipi0.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0Kpipi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_k3pi.dec new file mode 100644 index 0000000..f2e11fe --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_k3pi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0K3pi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_kpi.dec new file mode 100644 index 0000000..03c5d96 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_kpi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0Kpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_kpipi0.dec new file mode 100644 index 0000000..f9facbf --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_D0_phipi_kpipi0.dec @@ -0,0 +1,213 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- + + +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0Kpipi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_k3pi.dec new file mode 100644 index 0000000..0bcae6f --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_k3pi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_kpi.dec new file mode 100644 index 0000000..5488752 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_kpi.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_kpipi0.dec new file mode 100644 index 0000000..c391a4c --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_KstarK_kpipi0.dec @@ -0,0 +1,254 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s+KstarK pi0 VSS; +Enddecay +CDecay MyD_s1-KstarK +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_k3pi.dec new file mode 100644 index 0000000..88e0fd2 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_k3pi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_kpi.dec new file mode 100644 index 0000000..35833b8 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_kpi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_kpipi0.dec new file mode 100644 index 0000000..654bc9d --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDspi0_Dstar0_phipi_kpipi0.dec @@ -0,0 +1,248 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s+ pi0 VSS; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_k3pi.dec new file mode 100644 index 0000000..e3fee1b --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_k3pi.dec @@ -0,0 +1,263 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0K3pi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_kpi.dec new file mode 100644 index 0000000..726ec87 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_kpi.dec @@ -0,0 +1,263 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0Kpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_kpipi0.dec new file mode 100644 index 0000000..9a04db0 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_KstarK_kpipi0.dec @@ -0,0 +1,263 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+KstarK Myanti-D0Kpipi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_k3pi.dec new file mode 100644 index 0000000..185c06f --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_k3pi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0K3pi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_kpi.dec new file mode 100644 index 0000000..8ecaa2a --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_kpi.dec @@ -0,0 +1,205 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0Kpi SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_kpipi0.dec new file mode 100644 index 0000000..647018e --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_D0_phipi_kpipi0.dec @@ -0,0 +1,213 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- + + +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s1+ Myanti-D0Kpipi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_k3pi.dec new file mode 100644 index 0000000..f2b029a --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_k3pi.dec @@ -0,0 +1,263 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_kpi.dec new file mode 100644 index 0000000..f3766c0 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_kpi.dec @@ -0,0 +1,263 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_kpipi0.dec new file mode 100644 index 0000000..bfec806 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_KstarK_kpipi0.dec @@ -0,0 +1,263 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> kstark Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+KstarK D_s*+ +Alias MyD_s*-KstarK D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +Alias MyD_s1+KstarK D_s1+ +Alias MyD_s1-KstarK D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+KstarK MyD_s*-KstarK +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD_s1+KstarK MyD_s1-KstarK +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s1+KstarK SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD_s1+KstarK +1.0000 MyD_s*+KstarK pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1-KstarK + +Decay MyD_s*+KstarK +1.0000 MyD_s+KstarK gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*-KstarK + +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_k3pi.dec new file mode 100644 index 0000000..67ed81f --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_k3pi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0K3pi MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_kpi.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_kpi.dec new file mode 100644 index 0000000..f17af14 --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_kpi.dec @@ -0,0 +1,232 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpi MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +## +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_kpipi0.dec new file mode 100644 index 0000000..cd2162e --- /dev/null +++ b/BaBar_2014/BpBm_Dss1toDsstarpi0_Dstar0_phipi_kpipi0.dec @@ -0,0 +1,248 @@ +############################################################ +# # +# Exclusive Ds*+0 D0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> Ds*0+ D0 B- -> X # +# |->Ds+pi0 | # +# |-> phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +# +# BEGIN sp5 patch +# +Particle D_s0*+ 2.316 0.001 +Particle D_s0*- 2.316 0.001 +Particle D_s1+ 2.457 0.001 +Particle D_s1- 2.457 0.001 +# +ChangeMassMin D_s0*+ 2.306 +ChangeMassMax D_s0*+ 2.326 +ChangeMassMin D_s0*- 2.306 +ChangeMassMax D_s0*- 2.326 +ChangeMassMin D_s1+ 2.447 +ChangeMassMax D_s1+ 2.467 +ChangeMassMin D_s1- 2.447 +ChangeMassMax D_s1- 2.467 +# +Decay D_s0*+ +1.0000 D_s+ pi0 PHSP; +Enddecay +Decay D_s0*- +1.0000 D_s- pi0 PHSP; +Enddecay +# +Decay D_s1+ +0.2000 D_s+ gamma VSP_PWAVE; +0.8000 D_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay D_s1- +0.2000 D_s- gamma VSP_PWAVE; +0.8000 D_s*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# END sp5 patch +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0Kpi D*0 +Alias Myanti-D*0Kpi anti-D*0 +Alias MyD*0K3pi D*0 +Alias Myanti-D*0K3pi anti-D*0 +Alias MyD*0Kpipi0 D*0 +Alias Myanti-D*0Kpipi0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s1+ D_s1+ +Alias MyD_s1- D_s1- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD0Kpi D0 +Alias Myanti-D0Kpi anti-D0 +Alias MyD0Kpipi0 D0 +Alias Myanti-D0Kpipi0 anti-D0 +Alias MyD0K3pi D0 +Alias Myanti-D0K3pi anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s+KstarK D_s+ +Alias MyD_s-KstarK D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s1+ MyD_s1- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*0Kpi Myanti-D*0Kpi +ChargeConj MyD*0Kpipi0 Myanti-D*0Kpipi0 +ChargeConj MyD*0K3pi Myanti-D*0K3pi +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD0Kpi Myanti-D0Kpi +ChargeConj MyD0Kpipi0 Myanti-D0Kpipi0 +ChargeConj MyD0K3pi Myanti-D0K3pi +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+KstarK MyD_s-KstarK +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0Kpipi0 MyD_s1+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s1+ +1.0000 MyD_s*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyD_s1- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD*0Kpi +0.619 MyD0Kpi pi0 VSS; +0.381 MyD0Kpi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpi +# +Decay MyD*0K3pi +0.619 MyD0K3pi pi0 VSS; +0.381 MyD0K3pi gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0K3pi +# +Decay MyD*0Kpipi0 +0.619 MyD0Kpipi0 pi0 VSS; +0.381 MyD0Kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0Kpipi0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +Decay MyD_s- +0.01764 Myphi pi- SVS; +Enddecay +# +Decay MyD_s+KstarK +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s-KstarK +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD0Kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0Kpi +# +Decay MyD0K3pi +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0K3pi +# +# +Decay MyD0Kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0Kpipi0 +# + +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DsstarD0_Dsg_phipiKpi.dec b/BaBar_2014/BpBm_DsstarD0_Dsg_phipiKpi.dec new file mode 100644 index 0000000..b29e0c9 --- /dev/null +++ b/BaBar_2014/BpBm_DsstarD0_Dsg_phipiKpi.dec @@ -0,0 +1,107 @@ +############################################################ +# # +# Exclusive DD decay.dec #2 # +# # +# Ds*D . from B+ B- for SP3 # +# # +# Decay: B+ -> D_s* D0bar B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# DsstarD0_Dsg_phipiKpi.dec # +# # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + +#CDecay MyD*- +#CDecay MyD- +CDecay MyD_s- +CDecay MyD_s*- +#CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + diff --git a/BaBar_2014/BpBm_DsstarD0_DsgammaD.dec b/BaBar_2014/BpBm_DsstarD0_DsgammaD.dec new file mode 100644 index 0000000..762219e --- /dev/null +++ b/BaBar_2014/BpBm_DsstarD0_DsgammaD.dec @@ -0,0 +1,251 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B+ -> Ds*+ D0 anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +ChargeConj MyD*0 Myanti-D*0 + +# + +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +# +CDecay MyB- + +# +Decay MyD*+ +0.2500 MyD+ pi0 VSS; +0.7500 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +0.2500 MyD- pi0 VSS; +0.7500 MyD0 pi- VSS; +Enddecay +# +Decay MyD*0 +0.381 MyD0 gamma VSP_PWAVE; +0.619 MyD0 pi0 VSS; +Enddecay +# +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +CDecay MyD_s*- +# +Decay MyD_s+ +0.5000 Myphi pi+ SVS; +1.0000 MyK0 K+ PHSP; +0.5000 MyK*0 K+ SVS; +1.0000 My2ndK*0 K+ SVS; +1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +1.0000 Myeta pi+ PHSP; +Enddecay +# +CDecay MyD_s- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK_S0 pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 K_S0 pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/BpBm_DsstarDstar0_DsgammaD0pi0gamma.dec b/BaBar_2014/BpBm_DsstarDstar0_DsgammaD0pi0gamma.dec new file mode 100644 index 0000000..aa80eaf --- /dev/null +++ b/BaBar_2014/BpBm_DsstarDstar0_DsgammaD0pi0gamma.dec @@ -0,0 +1,251 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: B+ -> Ds*+ D0 anti-B0 -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +ChargeConj MyB+ MyB- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyB0 Myanti-B0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +ChargeConj MyD*0 Myanti-D*0 + +# + +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB- +#1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +1.00000 D_s*- D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +# +CDecay MyB+ + +# +Decay MyD*+ +0.2500 MyD+ pi0 VSS; +0.7500 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +0.2500 MyD- pi0 VSS; +0.7500 MyD0 pi- VSS; +Enddecay +# +Decay MyD*0 +0.381 MyD0 gamma VSP_PWAVE; +0.619 MyD0 pi0 VSS; +Enddecay +# +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +CDecay MyD_s*- +# +Decay MyD_s+ +0.5000 Myphi pi+ SVS; +1.0000 MyK0 K+ PHSP; +0.5000 MyK*0 K+ SVS; +1.0000 My2ndK*0 K+ SVS; +1.0000 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +1.0000 Myeta pi+ PHSP; +Enddecay +# +CDecay MyD_s- +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK_S0 pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 K_S0 pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/BpBm_Dsstar_D0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dsstar_D0_KstarK_k3pi.dec new file mode 100755 index 0000000..c7b8bd5 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_D0_KstarK_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D0 B- -> X # +# | | # +# K*K K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_D0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dsstar_D0_KstarK_kpi.dec new file mode 100755 index 0000000..331d2d4 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_D0_KstarK_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D0 B- -> X # +# | | # +# K*K Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_D0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dsstar_D0_KstarK_kpipi0.dec new file mode 100755 index 0000000..881d602 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_D0_KstarK_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D0 B- -> X # +# | | # +# K*K Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_D0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dsstar_D0_phipi_k3pi.dec new file mode 100755 index 0000000..ccff2c6 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_D0_phipi_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D0 B- -> X # +# | |-D0 pi0,gamma # +# phipi K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_D0_phipi_kpi.dec b/BaBar_2014/BpBm_Dsstar_D0_phipi_kpi.dec new file mode 100755 index 0000000..1cc7fa1 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_D0_phipi_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D0 B- -> X # +# | | # +# phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_D0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dsstar_D0_phipi_kpipi0.dec new file mode 100755 index 0000000..a362a7e --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_D0_phipi_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D0 B- -> X # +# | | # +# phipi Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_D0_recomodes.dec b/BaBar_2014/BpBm_Dsstar_D0_recomodes.dec new file mode 100644 index 0000000..ef55a0b --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_D0_recomodes.dec @@ -0,0 +1,152 @@ +############################################################ +# # +# Exclusive DsD* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyD_s*+ Myanti-D0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0D0gamma_recomodes.dec b/BaBar_2014/BpBm_Dsstar_Dstar0D0gamma_recomodes.dec new file mode 100644 index 0000000..a6a3fb1 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0D0gamma_recomodes.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 (D*0->D0gamma) # +# # +# Decay: B+ -> Ds*+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: J.P.Lees 12/14/00 adapted for DsD # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_k3pi.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_k3pi.dec new file mode 100755 index 0000000..ff30b78 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | | # +# K*K K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_kpi.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_kpi.dec new file mode 100755 index 0000000..eb4f47b --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | | # +# K*K Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_kpipi0.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_kpipi0.dec new file mode 100755 index 0000000..6e86b0d --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | | # +# K*K Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_ks2pi.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_ks2pi.dec new file mode 100644 index 0000000..0311e54 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_KstarK_ks2pi.dec @@ -0,0 +1,85 @@ +############################################################ +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | | # +# K*K kspipi # +# + cc # +# # +############################################################ + +Alias MyB+ B+ +Alias MyB- B- + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias Myanti-K0 anti-K0 + +ChargeConj MyB+ MyB- + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 + +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s+ MyD_s- + +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0 Myanti-K0 + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- + +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD0 +1.000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +CDecay Myanti-D0 + +Decay MyK0 +1.000 MyK_S0 PHSP; +Enddecay +CDecay Myanti-K0 + +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 + +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_k3pi.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_k3pi.dec new file mode 100755 index 0000000..f016bd9 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_k3pi.dec @@ -0,0 +1,140 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | |-D0 pi0,gamma # +# phipi K3pi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_kpi.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_kpi.dec new file mode 100755 index 0000000..da2db6c --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_kpi.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | | # +# phipi Kpi # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_kpipi0.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_kpipi0.dec new file mode 100755 index 0000000..fe73fd8 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_kpipi0.dec @@ -0,0 +1,134 @@ +############################################################ +# # +# Exclusive DsD0 decay.dec # +# # +# DsD0 from B+ B- for SP4 # +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | | # +# phipi Kpipi0 # +# + cc # +# # +# Author: J.P.Lees # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_ks2pi.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_ks2pi.dec new file mode 100644 index 0000000..ab59a1e --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_phipi_ks2pi.dec @@ -0,0 +1,82 @@ +############################################################ +# # +# Decay: B+ -> D*s+ D*0 B- -> X # +# | | # +# phipi kspipi # +# + cc # +# # +############################################################ + +Alias MyB+ B+ +Alias MyB- B- + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias Myanti-K0 anti-K0 + +ChargeConj MyB+ MyB- + +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 + +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s+ MyD_s- + +ChargeConj MyK0 Myanti-K0 + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- + +Decay MyD*0 +0.619 MyD0 pi0 VSS; +0.381 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay Myanti-D*0 + +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- + +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +Enddecay +CDecay MyD_s- + +Decay MyD0 +1.000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +CDecay Myanti-D0 + +Decay MyK0 +1.000 MyK_S0 PHSP; +Enddecay +CDecay Myanti-K0 + +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dsstar_Dstar0_recomodes.dec b/BaBar_2014/BpBm_Dsstar_Dstar0_recomodes.dec new file mode 100644 index 0000000..cfcd5ad --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Dstar0_recomodes.dec @@ -0,0 +1,152 @@ +############################################################ +# # +# Exclusive Ds*D* decay.dec # +# # +# Ds*D*0 . from B+ B- for SP3 # +# # +# Decay: B+ -> Ds*+ D*0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +# V. Lillard 09/21/00 some mods # +# J.P.Lees 12/14/00 adapted for DsD # +# J.P.Lees 01/26/00 corrected bug in Ds to K*0K # +# reconstructable modes= D0 kpi,kpipi0,k3pi # +# D+ Kpipi # +# Ds phipi, K0K,K*0K # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +ChargeConj MyB0 Myanti-B0 +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD*+ MyD*- +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +CDecay MyD*- +# +Decay MyD*0 +0.619 MyD0 pi0 VSS; +Enddecay +CDecay Myanti-D*0 +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.01764 Myphi pi+ SVS; +0.0123 MyK0 K+ PHSP; +0.0220 Myanti-K*0 K+ SVS; +Enddecay +CDecay MyD_s- +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay Myanti-D0 +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay MyD- +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1+ +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Kstar0_recomodes_long.dec b/BaBar_2014/BpBm_Dsstar_Kstar0_recomodes_long.dec new file mode 100644 index 0000000..c652e92 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Kstar0_recomodes_long.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Ds* anti-K*0 decay.dec # +# # +# Decay: B+ -> Ds*+ anti-K*0 (longitud. polarization) B- -> X # +# | |->K- pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Alex Merchant 5/May/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK*02 K*0 +Alias Myanti-K*02 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj Myanti-K*02 MyK*02 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ Myanti-K*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*02 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*02 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*02 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_Kstar0_recomodes_tran.dec b/BaBar_2014/BpBm_Dsstar_Kstar0_recomodes_tran.dec new file mode 100644 index 0000000..1eac078 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_Kstar0_recomodes_tran.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Ds* anti-K*0 decay.dec # +# # +# Decay: B+ -> Ds*+ anti-K*0 (transverse. polarization) B- -> X # +# | |->K- pi+ # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Alex Merchant 5/May/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias MyK*02 K*0 +Alias Myanti-K*02 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj Myanti-K*02 MyK*02 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ Myanti-K*0 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 1.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*02 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*02 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*02 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_a10_recomodes_long.dec b/BaBar_2014/BpBm_Dsstar_a10_recomodes_long.dec new file mode 100644 index 0000000..ab58d1c --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_a10_recomodes_long.dec @@ -0,0 +1,89 @@ +############################################################ +# # +# Exclusive Ds* a10 decay.dec # +# # +# Decay: B+ -> Ds*+ a_10 (longitud. polarization) B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 11/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ a_10 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/BpBm_Dsstar_a10_recomodes_tran.dec b/BaBar_2014/BpBm_Dsstar_a10_recomodes_tran.dec new file mode 100644 index 0000000..24b636c --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_a10_recomodes_tran.dec @@ -0,0 +1,89 @@ +############################################################ +# # +# Exclusive Ds* a10 decay.dec # +# # +# Decay: B+ -> Ds*+ a10 (transverse polarization) B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 11/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ a_10 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/BpBm_Dsstar_pi0_recomodes.dec b/BaBar_2014/BpBm_Dsstar_pi0_recomodes.dec new file mode 100644 index 0000000..e07ac5b --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_pi0_recomodes.dec @@ -0,0 +1,84 @@ +############################################################ +# # +# Exclusive Ds* pi decay.dec # +# # +# Decay: B+ -> Ds+ pi0 B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ pi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_rho0_recomodes.dec b/BaBar_2014/BpBm_Dsstar_rho0_recomodes.dec new file mode 100644 index 0000000..99972fa --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_rho0_recomodes.dec @@ -0,0 +1,84 @@ +############################################################ +# # +# Exclusive Ds* rho decay.dec # +# # +# Decay: B+ -> Ds+ rho0 B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Toyoko Orimoto 16/Dec/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj MyK*0 Myanti-K*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstar_rho0_recomodes_long.dec b/BaBar_2014/BpBm_Dsstar_rho0_recomodes_long.dec new file mode 100644 index 0000000..9ac29ca --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_rho0_recomodes_long.dec @@ -0,0 +1,89 @@ +############################################################ +# # +# Exclusive Ds* rho decay.dec # +# # +# Decay: B+ -> Ds*+ rho0 (long. polarization) B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/BpBm_Dsstar_rho0_recomodes_tran.dec b/BaBar_2014/BpBm_Dsstar_rho0_recomodes_tran.dec new file mode 100644 index 0000000..79efa00 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstar_rho0_recomodes_tran.dec @@ -0,0 +1,89 @@ +############################################################ +# # +# Exclusive Ds* rho decay.dec # +# # +# Decay: B+ -> Ds*+ rho0 (transverse pol.) B- -> X # +# | # +# |->recon- # +# structible # +# modes # +# + cc # +# # +# Author: Toyoko Orimoto 12/June/2001 # +# Modified: Alex Merchant 13/March/2003 # +# reconstructable modes= Ds phipi,phirho,phipipi,K0K,K*0K # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Alias Myphi phi +Alias MyK0 K0 +Alias MyK_S0 K_S0 +Alias MyK0bar anti-K0 +# +ChargeConj MyB+ MyB- +# +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK0bar MyK0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +0.0360 Myphi pi+ SVS; +0.0670 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0260 Myphi pi+ pi0 PHSP; +0.0330 Myanti-K*0 K+ SVS; +0.0360 MyK0bar K+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + diff --git a/BaBar_2014/BpBm_DsstarpKs.dec b/BaBar_2014/BpBm_DsstarpKs.dec new file mode 100644 index 0000000..5b057d4 --- /dev/null +++ b/BaBar_2014/BpBm_DsstarpKs.dec @@ -0,0 +1,59 @@ +###################################################### +# # +# Decay: B+ -> Ds*+ K0s, B- -> X # +# |-> Ds+ pi0,gamma # +# |-> K+ K0s # +# # +# + c.c. # +# # +# Author : Josh Thompson # +# Created: 17 September 2003 # +###################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 + +Alias MyDs*+ D_s*+ +Alias MyDs*- D_s*- +Alias MyDs+ D_s+ +Alias MyDs- D_s- + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyDs*+ MyK_S0 PHSP; +Enddecay +# +Decay MyB- +1.000 MyDs*- MyK_S0 PHSP; +Enddecay +# +Decay MyDs*+ +0.058 MyDs+ pi0 PHSP; +0.942 MyDs+ gamma PHSP; +Enddecay +# +Decay MyDs*- +0.058 MyDs- pi0 PHSP; +0.942 MyDs- gamma PHSP; +Enddecay +# +Decay MyDs+ +1.000 K+ MyK_S0 PHSP; +Enddecay +# +Decay MyDs- +1.000 K- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstarpi0_DsetaPpi.dec b/BaBar_2014/BpBm_Dsstarpi0_DsetaPpi.dec new file mode 100644 index 0000000..ba53921 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstarpi0_DsetaPpi.dec @@ -0,0 +1,63 @@ +############################################################ +# # +# Exclusive Ds* pi decay.dec # +# # +# Decay: B+ -> Ds*+ pi0 B- -> X # +# |-> Ds+ gamma # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB+ MyB- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ pi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 MyetaP pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Dsstarpi0_Dsetapi.dec b/BaBar_2014/BpBm_Dsstarpi0_Dsetapi.dec new file mode 100644 index 0000000..c171c6a --- /dev/null +++ b/BaBar_2014/BpBm_Dsstarpi0_Dsetapi.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Exclusive Ds* pi decay.dec # +# # +# Decay: B+ -> Ds*+ pi0 B- -> X # +# |-> Ds+ gamma # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB+ MyB- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ pi0 SVS; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Dsstarrho0_DsetaPpi.dec b/BaBar_2014/BpBm_Dsstarrho0_DsetaPpi.dec new file mode 100644 index 0000000..08b0d61 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstarrho0_DsetaPpi.dec @@ -0,0 +1,62 @@ +############################################################ +# # +# Exclusive Ds* rho decay.dec # +# # +# Decay: B+ -> Ds*+ rho0 B- -> X # +# |-> Ds+ gamma # +# |-> eta' pi+ # +# |-> eta pi+ pi- # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 22/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias MyetaP eta' +Alias Myeta eta +# +ChargeConj MyB+ MyB- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 MyetaP pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay MyetaP +1.0000 Myeta pi+ pi- PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dsstarrho0_Dsetapi.dec b/BaBar_2014/BpBm_Dsstarrho0_Dsetapi.dec new file mode 100644 index 0000000..1d0d279 --- /dev/null +++ b/BaBar_2014/BpBm_Dsstarrho0_Dsetapi.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Exclusive Ds* rho decay.dec # +# # +# Decay: B+ -> Ds*+ rho0 B- -> X # +# |-> Ds+ gamma # +# |-> eta pi+ # +# |-> gamma gamma # +# + c.c. # +# # +# Author: Toyoko Orimoto 19/Sept/2001 # +# toyoko@slac.stanford.edu # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +# +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Myeta eta +# +ChargeConj MyB+ MyB- +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- +ChargeConj MyD_s+ MyD_s- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD_s*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay MyB- +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +CDecay MyD_s*- +# +Decay MyD_s+ +1.0000 Myeta pi+ PHSP; +Enddecay +CDecay MyD_s- +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_Dst0K.dec b/BaBar_2014/BpBm_Dst0K.dec new file mode 100644 index 0000000..7426ac1 --- /dev/null +++ b/BaBar_2014/BpBm_Dst0K.dec @@ -0,0 +1,49 @@ +################################################### +# # +# Decay: B+ -> anti-D*0 K+, B- -> X; + cc # +# # +# Author: Natalia Kuznetsova # +# Date: 11/25/99 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K+ SVS; +Enddecay +Decay MyB- +1.000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dst0Kst.dec b/BaBar_2014/BpBm_Dst0Kst.dec new file mode 100644 index 0000000..1753752 --- /dev/null +++ b/BaBar_2014/BpBm_Dst0Kst.dec @@ -0,0 +1,73 @@ +################################################### +# # +# Decay: B+ -> anti-D*0 K*+, B- -> X; + cc # +# # +# Author: Natalia Kuznetsova # +# Date: 11/25/99 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +ChargeConj MyK0 Myanti-K0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +Decay MyB- +1.000 MyD*0 MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyK*+ +0.6660 MyK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.6660 Myanti-K0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK0 +1.000 K_S0 PHSP; +Enddecay +Decay Myanti-K0 +1.000 K_S0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_K3piKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_K3piKstar0K.dec new file mode 100644 index 0000000..d5c66a0 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_K3piKstar0K.dec @@ -0,0 +1,167 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_K3piphipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_K3piphipi.dec new file mode 100644 index 0000000..dae459c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_K3piphipi.dec @@ -0,0 +1,163 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_KpiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_KpiKstar0K.dec new file mode 100644 index 0000000..3ee5ced --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_KpiKstar0K.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpiphipi.dec new file mode 100644 index 0000000..68737d7 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpiphipi.dec @@ -0,0 +1,138 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpipi0Kstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpipi0Kstar0K.dec new file mode 100644 index 0000000..4a3cc84 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpipi0Kstar0K.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpipi0phipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpipi0phipi.dec new file mode 100644 index 0000000..215af4c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kpipi0phipi.dec @@ -0,0 +1,138 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_KspipiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_KspipiKstar0K.dec new file mode 100644 index 0000000..24fa41b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_KspipiKstar0K.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kspipiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kspipiphipi.dec new file mode 100644 index 0000000..3916986 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gD_sch_Kspipiphipi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_K3piKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_K3piKs0K.dec new file mode 100644 index 0000000..f84c516 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_K3piKs0K.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_KpiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_KpiKs0K.dec new file mode 100644 index 0000000..c8cbdb9 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_KpiKs0K.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_Kpipi0Ks0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_Kpipi0Ks0K.dec new file mode 100644 index 0000000..8f5fc3c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_Kpipi0Ks0K.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_KspipiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_KspipiKs0K.dec new file mode 100644 index 0000000..47a54d5 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0gK0K_KspipiKs0K.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_K3piKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_K3piKstar0K.dec new file mode 100644 index 0000000..86cd2b8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_K3piKstar0K.dec @@ -0,0 +1,167 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_K3piphipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_K3piphipi.dec new file mode 100644 index 0000000..826016f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_K3piphipi.dec @@ -0,0 +1,163 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_KpiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_KpiKstar0K.dec new file mode 100644 index 0000000..7728121 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_KpiKstar0K.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpiphipi.dec new file mode 100644 index 0000000..2468cff --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpiphipi.dec @@ -0,0 +1,138 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpipi0Kstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpipi0Kstar0K.dec new file mode 100644 index 0000000..948da85 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpipi0Kstar0K.dec @@ -0,0 +1,142 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpipi0phipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpipi0phipi.dec new file mode 100644 index 0000000..c3893b3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kpipi0phipi.dec @@ -0,0 +1,138 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_KspipiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_KspipiKstar0K.dec new file mode 100644 index 0000000..759dfc3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_KspipiKstar0K.dec @@ -0,0 +1,153 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_1 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kspipiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kspipiphipi.dec new file mode 100644 index 0000000..925b21e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0D_sch_Kspipiphipi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_K3piKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_K3piKs0K.dec new file mode 100644 index 0000000..d01c674 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_K3piKs0K.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_KpiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_KpiKs0K.dec new file mode 100644 index 0000000..aa99732 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_KpiKs0K.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_Kpipi0Ks0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_Kpipi0Ks0K.dec new file mode 100644 index 0000000..869cc2d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_Kpipi0Ks0K.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_KspipiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_KspipiKs0K.dec new file mode 100644 index 0000000..64661e2 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sch_D0pi0K0K_KspipiKs0K.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 Myanti-D*0_1 MyD_s+_1 SVS ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s+_1 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0K.dec new file mode 100644 index 0000000..fd4615c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0K.dec @@ -0,0 +1,180 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0K_phsp.dec new file mode 100644 index 0000000..9706998 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0K_phsp.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km001.dec new file mode 100644 index 0000000..24fc5bb --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km001.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km010.dec new file mode 100644 index 0000000..2050d41 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km010.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km100.dec new file mode 100644 index 0000000..c8de049 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKs0Km100.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0K.dec new file mode 100644 index 0000000..b0b51b3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0K.dec @@ -0,0 +1,174 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0K_phsp.dec new file mode 100644 index 0000000..086679e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0K_phsp.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km001.dec new file mode 100644 index 0000000..8c8fef4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km001.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km010.dec new file mode 100644 index 0000000..2a969a6 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km010.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km100.dec new file mode 100644 index 0000000..4d50039 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piKstar0Km100.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipi.dec new file mode 100644 index 0000000..30d973f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipi.dec @@ -0,0 +1,170 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipi_phsp.dec new file mode 100644 index 0000000..d9df825 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipi_phsp.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim001.dec new file mode 100644 index 0000000..4093aa0 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim001.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim010.dec new file mode 100644 index 0000000..f27fd73 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim010.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim100.dec new file mode 100644 index 0000000..bccfd0f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_K3piphipim100.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0K.dec new file mode 100644 index 0000000..4214168 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0K.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0K_phsp.dec new file mode 100644 index 0000000..95e8688 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0K_phsp.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km001.dec new file mode 100644 index 0000000..04c3de4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km010.dec new file mode 100644 index 0000000..c45e5b4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km100.dec new file mode 100644 index 0000000..23a8865 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKs0Km100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0K.dec new file mode 100644 index 0000000..26d48f4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0K.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0K_phsp.dec new file mode 100644 index 0000000..941792c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0K_phsp.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km001.dec new file mode 100644 index 0000000..014bc16 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km001.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km010.dec new file mode 100644 index 0000000..6fb7ee7 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km010.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km100.dec new file mode 100644 index 0000000..695a7e3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KpiKstar0Km100.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipi.dec new file mode 100644 index 0000000..ae6fe4e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipi.dec @@ -0,0 +1,145 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipi_phsp.dec new file mode 100644 index 0000000..97bcba9 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipi_phsp.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim001.dec new file mode 100644 index 0000000..e6bfe7a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim001.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim010.dec new file mode 100644 index 0000000..8929d91 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim010.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim100.dec new file mode 100644 index 0000000..ee79ed3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpiphipim100.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K.dec new file mode 100644 index 0000000..458ed5a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K_phsp.dec new file mode 100644 index 0000000..f0a08ed --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0K_phsp.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km001.dec new file mode 100644 index 0000000..07cd7ed --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km010.dec new file mode 100644 index 0000000..fe34388 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km100.dec new file mode 100644 index 0000000..8471b3a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Ks0Km100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0K.dec new file mode 100644 index 0000000..4ee7796 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0K.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0K_phsp.dec new file mode 100644 index 0000000..6f76233 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0K_phsp.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km001.dec new file mode 100644 index 0000000..59eaac3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km001.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km010.dec new file mode 100644 index 0000000..b4b7c31 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km010.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km100.dec new file mode 100644 index 0000000..0891b9a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0Kstar0Km100.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipi.dec new file mode 100644 index 0000000..35c3f59 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipi.dec @@ -0,0 +1,145 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipi_phsp.dec new file mode 100644 index 0000000..764cc82 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipi_phsp.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim001.dec new file mode 100644 index 0000000..a619d1e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim001.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim010.dec new file mode 100644 index 0000000..f495e87 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim010.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim100.dec new file mode 100644 index 0000000..033f122 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kpipi0phipim100.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0K.dec new file mode 100644 index 0000000..622c41f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0K.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0K_phsp.dec new file mode 100644 index 0000000..39c9dd0 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0K_phsp.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km001.dec new file mode 100644 index 0000000..f603922 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km010.dec new file mode 100644 index 0000000..748a695 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km100.dec new file mode 100644 index 0000000..911d69b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKs0Km100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0K.dec new file mode 100644 index 0000000..f2dc986 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0K.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0K_phsp.dec new file mode 100644 index 0000000..32e9f4c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0K_phsp.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km001.dec new file mode 100644 index 0000000..59edb0f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km001.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km010.dec new file mode 100644 index 0000000..8264cdf --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km010.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km100.dec new file mode 100644 index 0000000..3b0ac23 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_KspipiKstar0Km100.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipi.dec new file mode 100644 index 0000000..b471618 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipi.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipi_phsp.dec new file mode 100644 index 0000000..5d2f4e8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipi_phsp.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim001.dec new file mode 100644 index 0000000..85de320 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim010.dec new file mode 100644 index 0000000..595bb9b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim100.dec new file mode 100644 index 0000000..bd34c4b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0gD_sg_Kspipiphipim100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0K.dec new file mode 100644 index 0000000..3c817cc --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0K.dec @@ -0,0 +1,180 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0K_phsp.dec new file mode 100644 index 0000000..8053d78 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0K_phsp.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km001.dec new file mode 100644 index 0000000..4c0ade4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km001.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km010.dec new file mode 100644 index 0000000..5cdcb01 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km010.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km100.dec new file mode 100644 index 0000000..c5cd901 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKs0Km100.dec @@ -0,0 +1,179 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0K.dec new file mode 100644 index 0000000..c453630 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0K.dec @@ -0,0 +1,174 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0K_phsp.dec new file mode 100644 index 0000000..e82e066 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0K_phsp.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km001.dec new file mode 100644 index 0000000..e65b395 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km001.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km010.dec new file mode 100644 index 0000000..fdc917e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km010.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km100.dec new file mode 100644 index 0000000..d60f556 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piKstar0Km100.dec @@ -0,0 +1,173 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipi.dec new file mode 100644 index 0000000..36d0336 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipi.dec @@ -0,0 +1,170 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipi_phsp.dec new file mode 100644 index 0000000..9de664c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipi_phsp.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim001.dec new file mode 100644 index 0000000..510b00e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim001.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim010.dec new file mode 100644 index 0000000..21120c6 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim010.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim100.dec new file mode 100644 index 0000000..f65a2f4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_K3piphipim100.dec @@ -0,0 +1,169 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0K.dec new file mode 100644 index 0000000..3e63b84 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0K.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0K_phsp.dec new file mode 100644 index 0000000..6901e17 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0K_phsp.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km001.dec new file mode 100644 index 0000000..7f2ac8d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km010.dec new file mode 100644 index 0000000..8cb9bdd --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km100.dec new file mode 100644 index 0000000..4750bbf --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKs0Km100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0K.dec new file mode 100644 index 0000000..11a1811 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0K.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0K_phsp.dec new file mode 100644 index 0000000..d24793d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0K_phsp.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km001.dec new file mode 100644 index 0000000..6b03333 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km001.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km010.dec new file mode 100644 index 0000000..aac1d8a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km010.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km100.dec new file mode 100644 index 0000000..6ccd401 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KpiKstar0Km100.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipi.dec new file mode 100644 index 0000000..3b54162 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipi.dec @@ -0,0 +1,145 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipi_phsp.dec new file mode 100644 index 0000000..4c32d41 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipi_phsp.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim001.dec new file mode 100644 index 0000000..180f161 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim001.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim010.dec new file mode 100644 index 0000000..5f9bd0f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim010.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim100.dec new file mode 100644 index 0000000..9b0d78d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpiphipim100.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0K.dec new file mode 100644 index 0000000..ffd74a7 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0K.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0K_phsp.dec new file mode 100644 index 0000000..725af54 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0K_phsp.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km001.dec new file mode 100644 index 0000000..16e7ee4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km001.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km010.dec new file mode 100644 index 0000000..83d5984 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km010.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km100.dec new file mode 100644 index 0000000..aac6991 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Ks0Km100.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0K.dec new file mode 100644 index 0000000..d216fdd --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0K.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0K_phsp.dec new file mode 100644 index 0000000..e6571dc --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0K_phsp.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km001.dec new file mode 100644 index 0000000..b7691a9 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km001.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km010.dec new file mode 100644 index 0000000..8352849 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km010.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km100.dec new file mode 100644 index 0000000..401ae84 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0Kstar0Km100.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipi.dec new file mode 100644 index 0000000..3289655 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipi.dec @@ -0,0 +1,145 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipi_phsp.dec new file mode 100644 index 0000000..7702bea --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipi_phsp.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim001.dec new file mode 100644 index 0000000..ba6964d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim001.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim010.dec new file mode 100644 index 0000000..80b07e8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim010.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim100.dec new file mode 100644 index 0000000..84a87a7 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kpipi0phipim100.dec @@ -0,0 +1,144 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0K.dec new file mode 100644 index 0000000..a34a1b3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0K.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0K_phsp.dec new file mode 100644 index 0000000..1729264 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0K_phsp.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km001.dec new file mode 100644 index 0000000..ad1aac4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km010.dec new file mode 100644 index 0000000..4ec99d4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km100.dec new file mode 100644 index 0000000..42b08da --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKs0Km100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K0 K+ PHSP; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0K.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0K.dec new file mode 100644 index 0000000..d727256 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0K.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0K_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0K_phsp.dec new file mode 100644 index 0000000..1069287 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0K_phsp.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km001.dec new file mode 100644 index 0000000..51e1351 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km001.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km010.dec new file mode 100644 index 0000000..c7e3641 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km010.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km100.dec new file mode 100644 index 0000000..6f1f6f1 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_KspipiKstar0Km100.dec @@ -0,0 +1,159 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myanti-K*0 K+ SVS; +Enddecay + +CDecay MyD_s-_2 +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipi.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipi.dec new file mode 100644 index 0000000..309d0c4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipi.dec @@ -0,0 +1,156 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipi_phsp.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipi_phsp.dec new file mode 100644 index 0000000..7887951 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipi_phsp.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 PHSP ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim001.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim001.dec new file mode 100644 index 0000000..1c75464 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim001.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 0.0 0.0 1.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim010.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim010.dec new file mode 100644 index 0000000..c7bef61 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim010.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim100.dec b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim100.dec new file mode 100644 index 0000000..753694c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0D_sstar_D0pi0D_sg_Kspipiphipim100.dec @@ -0,0 +1,155 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.000 MyD_s*+_2 Myanti-D*0_1 SVV_HELAMP 1.0 0.0 0.0 0.0 0.0 0.0 ; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD_s*+_2 +1.0000 MyD_s+_2 gamma VSP_PWAVE; +Enddecay + +CDecay MyD_s*-_2 +# +# +Decay MyD_s+_2 +1.0000 Myphi pi+ SVS; +Enddecay +# +CDecay MyD_s-_2 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_K3piKpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_K3piKpipi.dec new file mode 100644 index 0000000..bf84ff0 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_K3piKpipi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_K3piKspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_K3piKspi.dec new file mode 100644 index 0000000..ffd02b7 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_K3piKspi.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKpipi.dec new file mode 100644 index 0000000..ed202bd --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKspi.dec new file mode 100644 index 0000000..da01dc8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KpiKspi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_Kpipi0Kpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_Kpipi0Kpipi.dec new file mode 100644 index 0000000..785c04b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_Kpipi0Kpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_Kpipi0Kspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_Kpipi0Kspi.dec new file mode 100644 index 0000000..8da79ba --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_Kpipi0Kspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KspipiKpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KspipiKpipi.dec new file mode 100644 index 0000000..d65a287 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KspipiKpipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KspipiKspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KspipiKspi.dec new file mode 100644 index 0000000..55c598d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0gDch_KspipiKspi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_K3piKpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_K3piKpipi.dec new file mode 100644 index 0000000..a063ab3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_K3piKpipi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_K3piKspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_K3piKspi.dec new file mode 100644 index 0000000..f79f7e5 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_K3piKspi.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KpiKpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KpiKpipi.dec new file mode 100644 index 0000000..134edb1 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KpiKpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KpiKspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KpiKspi.dec new file mode 100644 index 0000000..8b6d437 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KpiKspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kpipi.dec new file mode 100644 index 0000000..48b9638 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kpipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kspi.dec new file mode 100644 index 0000000..1f44b5b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_Kpipi0Kspi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KspipiKpipi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KspipiKpipi.dec new file mode 100644 index 0000000..7c63c4d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KspipiKpipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KspipiKspi.dec b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KspipiKspi.dec new file mode 100644 index 0000000..32fff33 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dch_D0pi0Dch_KspipiKspi.dec @@ -0,0 +1,149 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD+_1 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dm_D0g_KpiKpipi.dec b/BaBar_2014/BpBm_Dstar0Dm_D0g_KpiKpipi.dec new file mode 100644 index 0000000..486ed6f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dm_D0g_KpiKpipi.dec @@ -0,0 +1,102 @@ +############################################################ +# # +# Exclusive DD decay.dec #2 # +# # +# D*D . from B+ B- for SP3 # +# # +# Decay: B+ -> anti-D*0(2007) D+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# Dstar0D-_D0g_KpiKpipi.dec # +# # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD+ MyD- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 Myanti-D*0 MyD+ SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# + + +#CDecay MyD*- +CDecay MyD- +CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + diff --git a/BaBar_2014/BpBm_Dstar0Ds_D0g_Kpi_phipi.dec b/BaBar_2014/BpBm_Dstar0Ds_D0g_Kpi_phipi.dec new file mode 100644 index 0000000..353c4d3 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Ds_D0g_Kpi_phipi.dec @@ -0,0 +1,107 @@ +############################################################ +# # +# Exclusive D*Ds decay.dec #2 # +# # +# D*D* . from B+ B- for SP3 # +# # +# Decay: B+ -> anti-D*0(2007) Ds B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# Dstar0Ds_D0g_Kpi_phipi.dec # +# # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD+ MyD- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 Myanti-D*0 MyD_s+ SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + +#CDecay MyD*- +#CDecay MyD- +CDecay MyD_s- +CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + diff --git a/BaBar_2014/BpBm_Dstar0Dsm_DsKpimix.dec b/BaBar_2014/BpBm_Dstar0Dsm_DsKpimix.dec new file mode 100644 index 0000000..48605f6 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dsm_DsKpimix.dec @@ -0,0 +1,94 @@ +#################################################### +# # +# Inclusive DsD* decay.dec #1 # +# # +# DsD* signal from B+ B- for SP2 # +# # +# Decay: B- -> D*(2007)0 Ds-, B+ -> X +c.c. # +# |-> X | # +# |-> phi pi- 21% # +# |-> phi pi- pi0 39% # +# |-> K*0 K- 26% # +# |-> Ks K- 14% # +# # +# phi -> K+ K- # +# K*0 -> K+ pi- # +# Ks -> pi+ pi- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias MyPhi phi +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.0000 D*0 MyD_s- SVS; +Enddecay +# +Decay MyD_s- +0.2100 MyPhi pi- SVS; +0.3900 MyPhi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 MyK*0 K- SVS; +0.1400 MyK0 K- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +###################################################################### +Decay MyB+ +1.0000 anti-D*0 MyD_s+ SVS; +Enddecay +# +Decay MyD_s+ +0.2100 MyPhi pi+ SVS; +0.3900 MyPhi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.2600 Myanti-K*0 K+ SVS; +0.1400 Myanti-K0 K+ PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Dstar0Dsm_DsToPhiPi.dec b/BaBar_2014/BpBm_Dstar0Dsm_DsToPhiPi.dec new file mode 100644 index 0000000..e0c2b1d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dsm_DsToPhiPi.dec @@ -0,0 +1,58 @@ +#################################################### +# # +# $Id: # +# # +# Inclusive DsD* decay.dec #1 # +# # +# DsD* signal from B+ B- for SP2 # +# # +# Decay: B- -> D*(2007)0 Ds-, B+ -> X +c.c. # +# |-> X | # +# |-> phi pi- 100% # +# # +# phi -> K+ K- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- + +Alias MyPhi phi +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.0000 D*0 MyD_s- SVS; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +###################################################################### +Decay MyB+ +1.0000 anti-D*0 MyD_s+ SVS; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Dstar0Dsstar_D0gDsg_To_Kpiphipi.dec b/BaBar_2014/BpBm_Dstar0Dsstar_D0gDsg_To_Kpiphipi.dec new file mode 100644 index 0000000..d53cfbc --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dsstar_D0gDsg_To_Kpiphipi.dec @@ -0,0 +1,111 @@ +############################################################ +# # +# Exclusive DD decay.dec #2 # +# # +# D*D* . from B+ B- for SP3 # +# # +# Decay: B+ -> anti-D*0(2007) D_s* B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# Dstar0Dsstar_D0gDsg_Kpiphipi.dec # +# # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 Myanti-D*0 MyD_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD_s+ +1.0000 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# + + +#CDecay MyD*- +#CDecay MyD- +CDecay MyD_s- +CDecay MyD_s*- +CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + diff --git a/BaBar_2014/BpBm_Dstar0Dsstarm_DsToPhiPi.dec b/BaBar_2014/BpBm_Dstar0Dsstarm_DsToPhiPi.dec new file mode 100644 index 0000000..ff23a60 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dsstarm_DsToPhiPi.dec @@ -0,0 +1,68 @@ +#################################################### +# # +# $Id: # +# # +# Inclusive Ds*D* decay.dec #1 # +# # +# Ds*D* signal from B+ B- for SP2 # +# # +# Decay: B- -> D*(2007)0 Ds*-, B+ -> X +c.c. # +# |-> X Ds- gamma # +# | # +# |-> phi pi- 100% # +# # +# phi -> K+ K- # +# 25 Oct 99 (IHB AWG) # +# Roy Aleksan # +# dm modified: g.london 17/2 # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyPhi phi +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.0000 D*0 MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +# +Decay MyD_s*- +1.0000 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +###################################################################### +Decay MyB+ +1.0000 anti-D*0 MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +# +Decay MyD_s*+ +1.0000 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0p_Kpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0p_Kpi.dec new file mode 100644 index 0000000..cacebe1 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0p_Kpi.dec @@ -0,0 +1,103 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #2 # +# # +# D*D* . from B+ B- for SP3 # +# # +# Decay: B+ -> anti-D*0(2007) D*+(2010) B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# Dstar0Dstar_D0gD0p_Kpi.dec # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD_s*+ D_s*+ +Alias MyD_s*- D_s*- +Alias MyD_s+ D_s+ +Alias MyD_s- D_s- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD_s*+ MyD_s*- +ChargeConj MyD_s+ MyD_s- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 Myanti-D*0 MyD*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# + + +CDecay MyD*- +#CDecay MyD- +CDecay Myanti-D*0 +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + + + diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piK3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piK3pi.dec new file mode 100644 index 0000000..8dcf8d0 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piK3pi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKpi.dec new file mode 100644 index 0000000..8d0c500 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKpi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKpipi0.dec new file mode 100644 index 0000000..0a41a2e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKpipi0.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKspipi.dec new file mode 100644 index 0000000..59b4bf9 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_K3piKspipi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiK3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiK3pi.dec new file mode 100644 index 0000000..070cde9 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiK3pi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKpi.dec new file mode 100644 index 0000000..a2e6f69 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKpi.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKpipi0.dec new file mode 100644 index 0000000..e26aa97 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKpipi0.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKspipi.dec new file mode 100644 index 0000000..e67fcf2 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KpiKspipi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0K3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0K3pi.dec new file mode 100644 index 0000000..2ab3450 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0K3pi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpi.dec new file mode 100644 index 0000000..092c397 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpi.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..a5ad59f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kpipi0.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kspipi.dec new file mode 100644 index 0000000..40d773d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_Kpipi0Kspipi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiK3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiK3pi.dec new file mode 100644 index 0000000..7bd9c18 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiK3pi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKpi.dec new file mode 100644 index 0000000..2cf414c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKpi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKpipi0.dec new file mode 100644 index 0000000..fda77de --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKpipi0.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKspipi.dec new file mode 100644 index 0000000..2e3e4bf --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0gD0pi_KspipiKspipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 gamma VSP_PWAVE; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piK3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piK3pi.dec new file mode 100644 index 0000000..dcbc89f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piK3pi.dec @@ -0,0 +1,154 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpi.dec new file mode 100644 index 0000000..2f8b645 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpipi0.dec new file mode 100644 index 0000000..c07651b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKpipi0.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKspipi.dec new file mode 100644 index 0000000..e24c12e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_K3piKspipi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiK3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiK3pi.dec new file mode 100644 index 0000000..09f6e46 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiK3pi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpi.dec new file mode 100644 index 0000000..9d0214b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpi.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpipi0.dec new file mode 100644 index 0000000..d0d293d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKpipi0.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKspipi.dec new file mode 100644 index 0000000..b5ef9d6 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KpiKspipi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0K3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0K3pi.dec new file mode 100644 index 0000000..c8402d0 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0K3pi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpi.dec new file mode 100644 index 0000000..d5c794e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpi.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..e16bcc4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kpipi0.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kspipi.dec new file mode 100644 index 0000000..20bcd7d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_Kpipi0Kspipi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiK3pi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiK3pi.dec new file mode 100644 index 0000000..50e947e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiK3pi.dec @@ -0,0 +1,160 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKpi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKpi.dec new file mode 100644 index 0000000..b5540dc --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKpi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKpipi0.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKpipi0.dec new file mode 100644 index 0000000..de5cefa --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKpipi0.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKspipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKspipi.dec new file mode 100644 index 0000000..0e76b55 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0D0pi_KspipiKspipi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD0_2 pi+ VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_K3piKpipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_K3piKpipi.dec new file mode 100644 index 0000000..32c819e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_K3piKpipi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_KpiKpipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_KpiKpipi.dec new file mode 100644 index 0000000..9ce32e6 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_KpiKpipi.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_Kpipi0Kpipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_Kpipi0Kpipi.dec new file mode 100644 index 0000000..2229071 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_Kpipi0Kpipi.dec @@ -0,0 +1,123 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# + + +End diff --git a/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_KspipiKpipi.dec b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_KspipiKpipi.dec new file mode 100644 index 0000000..d5bd7d8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Dstar_D0pi0Dchpi0_KspipiKpipi.dec @@ -0,0 +1,135 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# V. Lillard 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 +ChargeConj MyK_S0 MyK_S0 +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 Myanti-D*0_1 MyD*+_2 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*0_1 +1.0000 MyD0_1 pi0 VSS; +Enddecay + +CDecay Myanti-D*0_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD*+_2 +1.0000 MyD+_2 pi0 VSS; +Enddecay + +CDecay MyD*-_2 +# +# +Decay MyD+_2 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Dstar0K3pi_DminusK2pi_K0S.dec b/BaBar_2014/BpBm_Dstar0K3pi_DminusK2pi_K0S.dec new file mode 100644 index 0000000..e333e19 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K3pi_DminusK2pi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*0 D- K0s # +# D0->K3pi, D-->K+pi-pi-, K0s->pi+pi- # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0k3pi MyD- myKs PHSP; +Enddecay +CDecay MyB+ +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_Dstar0K_CPminusCocktail.dec b/BaBar_2014/BpBm_Dstar0K_CPminusCocktail.dec new file mode 100644 index 0000000..0fb49ea --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_CPminusCocktail.dec @@ -0,0 +1,141 @@ +##################################################### +# # +# Decay: B- -> Dstar0 K- B+ -> Dstar0bar K+ # +# | | # +# (50%) |-> D0 pi0 |-> D0bar pi0 # +# (50%) |-> D0 gamma |-> D0bar gamma # +# # +# # +# D0 D0bar # +# | | # +# | | # +# | | # +# |-> Ks0 pi0 <-| # +# |-> Ks0 phi <-| # +# |-> Ks0 rho0 <-| # +# |-> Ks0 omega <-| # +# |-> Ks0 eta <-| # +# |-> Ks0 eta' <-| # +# |-> pi0 phi <-| # +# |-> pi0 rho0 <-| # +# # +# # +# Ks0 # +# | # +# |-> pi+ pi- # +# # +# phi # +# | # +# |-> K+ K- # +# # +# rho0 # +# | # +# |-> pi+ pi- # +# # +# omega # +# | # +# |-> pi+ pi- pi0 # +# # +# eta # +# | # +# (50%) |-> pi+ pi- pi0 # +# (50%) |-> gamma gamma # +# # +# eta' # +# | # +# |-> rho0 gamma # +# # +# # +# Author: Malcolm John # +# created: 25 May 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyDstar0 D*0 +Alias Myanti-Dstar0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK_S0 K_S0 +Alias MyPhi phi +Alias MyRho0 rho0 +Alias MyOmega omega +Alias MyEta eta +Alias MyEta' eta' + +# +Decay Upsilon(4S) +1.00 MyB- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0000 MyDstar0 K- SVS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-Dstar0 K+ SVS; +Enddecay +# +Decay MyDstar0 +0.50 MyD0 pi0 VSS; +0.50 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-Dstar0 +0.50 Myanti-D0 pi0 VSS; +0.50 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.125 pi0 MyK_S0 PHSP; +0.125 MyPhi MyK_S0 SVS; +0.125 MyRho0 MyK_S0 SVS; +0.125 MyOmega MyK_S0 SVS; +0.125 MyEta MyK_S0 PHSP; +0.125 MyEta' MyK_S0 PHSP; +0.125 MyPhi pi0 SVS; +0.125 MyRho0 pi0 SVS; +Enddecay +# +Decay Myanti-D0 +0.125 pi0 MyK_S0 PHSP; +0.125 MyPhi MyK_S0 SVS; +0.125 MyRho0 MyK_S0 SVS; +0.125 MyOmega MyK_S0 SVS; +0.125 MyEta MyK_S0 PHSP; +0.125 MyEta' MyK_S0 PHSP; +0.125 MyPhi pi0 SVS; +0.125 MyRho0 pi0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyRho0 +1.000 pi- pi+ VSS; +Enddecay +# +Decay MyOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyEta +0.50 pi+ pi- pi0 ETA_DALITZ; +0.50 gamma gamma PHSP; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Dstar0K_CPplusCocktail.dec b/BaBar_2014/BpBm_Dstar0K_CPplusCocktail.dec new file mode 100644 index 0000000..15b977c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_CPplusCocktail.dec @@ -0,0 +1,117 @@ +##################################################### +# # +# Decay: B- -> Dstar0 K- B+ -> Dstar0bar K+ # +# | | # +# (50%) |-> D0 pi0 |-> D0bar pi0 # +# (50%) |-> D0 gamma |-> D0bar gamma # +# # +# # +# D0 D0bar # +# | | # +# | | # +# | | # +# |-> pi+ pi- <-| # +# |-> K+ K- <-| # +# |-> pi0 pi0 <-| # +# |-> Ks0 Ks0 <-| # +# |-> eta phi <-| # +# |-> eta rho <-| # +# # +# # +# Ks0 # +# | # +# |-> pi+ pi- # +# # +# phi # +# | # +# |-> K+ K- # +# # +# rho0 # +# | # +# |-> pi+ pi- # +# # +# eta # +# | # +# (50%) |-> pi+ pi- pi0 # +# (50%) |-> gamma gamma # +# # +# # +# Author: Malcolm John # +# created: 25 May 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyDstar0 D*0 +Alias Myanti-Dstar0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyK_S0 K_S0 +Alias MyPhi phi +Alias MyRho0 rho0 +Alias MyEta eta + +# +Decay Upsilon(4S) +1.00 MyB- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0000 MyDstar0 K- SVS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-Dstar0 K+ SVS; +Enddecay +# +Decay MyDstar0 +0.50 MyD0 pi0 VSS; +0.50 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-Dstar0 +0.50 Myanti-D0 pi0 VSS; +0.50 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.166 pi+ pi- PHSP; +0.166 K+ K- PHSP; +0.166 pi0 pi0 PHSP; +0.166 MyK_S0 MyK_S0 PHSP; +0.166 MyPhi MyEta SVS; +0.166 MyRho0 MyEta SVS; +Enddecay +# +Decay Myanti-D0 +0.166 pi+ pi- PHSP; +0.166 K+ K- PHSP; +0.166 pi0 pi0 PHSP; +0.166 MyK_S0 MyK_S0 PHSP; +0.166 MyPhi MyEta SVS; +0.166 MyRho0 MyEta SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyRho0 +1.000 pi- pi+ VSS; +Enddecay +# +Decay MyEta +0.50 pi+ pi- pi0 ETA_DALITZ; +0.50 gamma gamma PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Dstar0K_D0CabibboNonCP.dec b/BaBar_2014/BpBm_Dstar0K_D0CabibboNonCP.dec new file mode 100644 index 0000000..ea5ec83 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_D0CabibboNonCP.dec @@ -0,0 +1,111 @@ +##################################################### +# # +# Decay: B- -> D*0 K- B+ -> D*0bar K+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# D*0 -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D*0 K- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD*0 K+ PHSP; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Dstar0K_D0mKsKK_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0K_D0mKsKK_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..d04e20d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_D0mKsKK_Ksmpipi_PHSP.dec @@ -0,0 +1,63 @@ +################################################################# +# # +# Decay: B- -> D*0 K-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> K+K- K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0K_D0mKsKpi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0K_D0mKsKpi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..f6a8a92 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_D0mKsKpi_Ksmpipi_PHSP.dec @@ -0,0 +1,65 @@ +################################################################# +# # +# Decay: B- -> D0 K-, B+ -> X + c.c. # +# | # +# `-> Kpi K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0 K- PHSP; +Enddecay +# +Decay MyD0 +6.9 K- pi+ MyK_S0 PHSP; +5.2 K+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +6.9 K+ pi- MyK_S0 PHSP; +5.2 K- pi+ MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0K_D0mKspipi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0K_D0mKspipi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..16e28d6 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_D0mKspipi_Ksmpipi_PHSP.dec @@ -0,0 +1,63 @@ +################################################################# +# # +# Decay: B- -> D*0 K-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> pi+pi- K_S0 # +# | # +# ` -> pi+ pi- # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0K_D0mpi0pipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0K_D0mpi0pipi_PHSP.dec new file mode 100644 index 0000000..1ccaf9b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_D0mpi0pipi_PHSP.dec @@ -0,0 +1,56 @@ +################################################################# +# # +# Decay: B- -> D*0 K-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> pi+pi- pi0 # +# # +# # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0 K- PHSP; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mK3pi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mK3pi.dec new file mode 100644 index 0000000..f775412 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mK3pi.dec @@ -0,0 +1,51 @@ +##################################################################### +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 gamma (D0 -> K- pi+ pi+ pi-)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 05/25/2001 # +##################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKK.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKK.dec new file mode 100644 index 0000000..818851d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKK.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 gamma (D0 -> K- K+)) # +# B+ -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKpi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKpi.dec new file mode 100644 index 0000000..bdde0ae --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 gamma (D0 -> K- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 05/25/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKpipi0.dec new file mode 100644 index 0000000..2a33082 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKpipi0.dec @@ -0,0 +1,50 @@ +################################################################## +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 gamma (D0 -> K- pi+ p0)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 05/25/2001 # +################################################################## +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec new file mode 100644 index 0000000..7dc1d42 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec @@ -0,0 +1,68 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> K_S0 pi0 # +# | # +# `-> pi+ pi- # +# # +# # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec new file mode 100644 index 0000000..00ca66b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec @@ -0,0 +1,72 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> rho0 K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec new file mode 100644 index 0000000..dca24da --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec @@ -0,0 +1,78 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> eta' K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `-> rho0 gamma # +# | # +# `-> pi+ pi- # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta' eta' +Alias Myrho0 rho0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myeta' +1.000 Myrho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec new file mode 100644 index 0000000..8078fa1 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec @@ -0,0 +1,73 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> omega K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myomega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec new file mode 100644 index 0000000..7018972 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec @@ -0,0 +1,73 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> phi K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> K+ K- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myphi phi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mpipi.dec new file mode 100644 index 0000000..60243a2 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0gamma_D0mpipi.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 gamma (D0 -> pi- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mK3pi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mK3pi.dec new file mode 100644 index 0000000..775f46c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mK3pi.dec @@ -0,0 +1,51 @@ +################################################################### +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 pi0 (D0 -> K- pi+ pi+ pi-)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKK.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKK.dec new file mode 100644 index 0000000..d4b6c87 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKK.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 pi0 (D0 -> K- K+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKpi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKpi.dec new file mode 100644 index 0000000..75f9b0b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 pi0 (D0 -> K- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKpipi0.dec new file mode 100644 index 0000000..dffe90a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKpipi0.dec @@ -0,0 +1,50 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 pi0 (D0 -> K- pi+ p0)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec new file mode 100644 index 0000000..cf48bca --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec @@ -0,0 +1,68 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> K_S0 pi0 # +# | # +# `-> pi+ pi- # +# # +# # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec new file mode 100644 index 0000000..215af8c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec @@ -0,0 +1,72 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> rho0 K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec new file mode 100644 index 0000000..e75361c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec @@ -0,0 +1,78 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> eta' K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `-> rho0 gamma # +# | # +# `-> pi+ pi- # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta' eta' +Alias Myrho0 rho0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myeta' +1.000 Myrho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec new file mode 100644 index 0000000..98c779e --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec @@ -0,0 +1,73 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> omega K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myomega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec new file mode 100644 index 0000000..2a2c05c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec @@ -0,0 +1,73 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> phi K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> K+ K- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myphi phi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mpipi.dec b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mpipi.dec new file mode 100644 index 0000000..42d6d91 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0K_Dstar0mD0pi0_D0mpipi.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 K- (Dstar0 ->D0 pi0 (D0 -> pi- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 K- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0Kpi0_D0CP.dec b/BaBar_2014/BpBm_Dstar0Kpi0_D0CP.dec new file mode 100755 index 0000000..874fb60 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kpi0_D0CP.dec @@ -0,0 +1,197 @@ +########################################################################## +# # +# Decay file for: B+- --> Dstar0 K pi0, Dstar0 --> D0pi0, D0gamma # +# D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.0004 Myanti-D*0 K+ pi0 PHSP; +Enddecay + +Decay MyB- + 0.0004 MyD*0 K- pi0 PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta2 PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/BpBm_Dstar0Kpi0_D0NonCP.dec b/BaBar_2014/BpBm_Dstar0Kpi0_D0NonCP.dec new file mode 100755 index 0000000..dbd2476 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kpi0_D0NonCP.dec @@ -0,0 +1,160 @@ +########################################################################## +# # +# Decay file for: B+- --> Dstar0 K pi0, Dstar0 --> D0pi0, D0gamma # +# D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.0004 Myanti-D*0 K+ pi0 PHSP; +Enddecay + +Decay MyB- + 0.0004 MyD*0 K- pi0 PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/BpBm_Dstar0Kpipi0_DminusK2pi_K0S.dec b/BaBar_2014/BpBm_Dstar0Kpipi0_DminusK2pi_K0S.dec new file mode 100644 index 0000000..475d7c8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kpipi0_DminusK2pi_K0S.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B0 -> D*0 D- K0s # +# D0->Kpipi0, D-->K+pi-pi-, K0s->pi+pi- # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*0kpipi0 MyD- myKs PHSP; +Enddecay +CDecay MyB+ +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End +# diff --git a/BaBar_2014/BpBm_Dstar0Krho0_D0CP.dec b/BaBar_2014/BpBm_Dstar0Krho0_D0CP.dec new file mode 100755 index 0000000..a19d66b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Krho0_D0CP.dec @@ -0,0 +1,197 @@ +########################################################################## +# # +# Decay file for: B+- --> Dstar0 K rho0, Dstar0 --> D0pi0, D0gamma # +# D0 --> CP modes # +# CP modes: KK, KsPi0, KsEta, KsEtap, KsOmega, KsRho0, KsPhi, Rho0Pi0 # +# # +# The D0 decay modes are into CP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + +Alias NewEta eta +Alias NewEta2 eta +Alias NewEtap eta' +Alias NewOmega omega +Alias NewPhi phi + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.0004 Myanti-D*0 K+ rho0 PHSP; +Enddecay + +Decay MyB- + 0.0004 MyD*0 K- rho0 PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> KK, KsPi0, KsEta, KsEtap, +# KsOmega, KsRho0, KsPhi, Rho0Pi0 +################################################### + +Decay MyD0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + +Decay Myanti-D0 +# CP Even + 0.00412 K+ K- PHSP; +# CP Odd + 0.00782 MyKs pi0 PHSP; + 0.0016 MyKs NewEta PHSP; + 0.00365 MyKs NewEtap PHSP; + 0.0067 NewOmega MyKs SVS; + 0.00504 rho0 MyKs SVS; + 0.0016 NewPhi MyKs SVS; + 0.004 rho0 pi0 SVS; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + +# The final state K pi pi can be reached through the K omega, via: +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +################################################### +# "New" decay types (due to reconstruction issues) +################################################### + +Decay NewPhi + 1.0000 K- K+ VSS; +Enddecay + +Decay NewOmega + 1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay + +Decay NewEtap + 1.0000 pi+ pi- NewEta2 PHSP; +Enddecay + +Decay NewEta + 0.3933 pi+ pi- pi0 ETA_DALITZ; + 0.2300 gamma gamma PHSP; +Enddecay + +Decay NewEta2 + 1.0000 gamma gamma PHSP; +Enddecay + + + +################################################### + +End diff --git a/BaBar_2014/BpBm_Dstar0Krho0_D0NonCP.dec b/BaBar_2014/BpBm_Dstar0Krho0_D0NonCP.dec new file mode 100755 index 0000000..c9d4bea --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Krho0_D0NonCP.dec @@ -0,0 +1,160 @@ +########################################################################## +# # +# Decay file for: B+- --> Dstar0 K rho0, Dstar0 --> D0pi0, D0gamma # +# D0 --> Kpi, Kpipi0, Kpipipi # +# # +# The D0 decay modes are into nonCP eigenstates. # +# # +# Author: Troels Petersen, LAL # +# Date: 6th of November 2002 # +# # +########################################################################## + +################################################### +# Define alias +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 + + +################################################### +# Begin the decays +################################################### + +Decay Upsilon(4S) + 0.500 MyB+ B- VSS; + 0.500 MyB- B+ VSS; +Enddecay + + +################################################### +# B+- -> D0(bar) K+- pi0 +################################################### + +Decay MyB+ + 0.0004 Myanti-D*0 K+ rho0 PHSP; +Enddecay + +Decay MyB- + 0.0004 MyD*0 K- rho0 PHSP; +Enddecay + + +################################################### +# Dstar0(bar) -> D0(bar) pi0, D0(bar) gamma +################################################### + +Decay MyD*0 + 0.6190 MyD0 pi0 VSS; + 0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 + 0.6190 Myanti-D0 pi0 VSS; + 0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + + +################################################### +# D0(bar) -> K pi, K pi pi0, K pi pi pi +################################################### + +Decay MyD0 + 0.142 K- pi+ PHSP; + 0.513 K- pi+ pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1+ K- SVS; + 0.0123 MyK_1- pi+ SVS; + 0.0375 Myanti-K*0 pi+ pi- PHSP; + 0.0194 K- pi+ rho0 PHSP; + 0.0462 K- pi+ pi+ pi- PHSP; + 0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + +Decay Myanti-D0 + 0.142 K+ pi- PHSP; + 0.513 K+ pi- pi0 D_DALITZ; + #### K 3pi (0.277 in total) ### + 0.1270 Mya_1- K+ SVS; + 0.0123 MyK_1+ pi- SVS; + 0.0375 MyK*0 pi- pi+ PHSP; + 0.0194 K+ pi- rho0 PHSP; + 0.0462 K+ pi- pi- pi+ PHSP; + 0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +################################################### +# Light meson decays +################################################### + +Decay MyK0 + 1.000 MyKs PHSP; +Enddecay + +Decay Myanti-K0 + 1.000 MyKs PHSP; +Enddecay + +Decay MyKs + 1.000 pi+ pi- PHSP; +Enddecay + + +Decay Mya_1+ + 1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- + 1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay MyK_1+ + 0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K+ pi- pi+ PHSP; +Enddecay + +Decay MyK_1- + 0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + 0.4036 K- pi+ pi- PHSP; +Enddecay + + +Decay MyK*0 + 1.0000 K+ pi- VSS; +Enddecay + +Decay Myanti-K*0 + 1.0000 K- pi+ VSS; +Enddecay + + +Decay Myomega + 1.0000 pi- pi+ VSS; +Enddecay + + +################################################### + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar.dec b/BaBar_2014/BpBm_Dstar0Kstar.dec new file mode 100644 index 0000000..29018a1 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar.dec @@ -0,0 +1,73 @@ +################################################### +# # +# Decay: B+ -> anti-D*0 K*+, B- -> X; + cc # +# # +# Author: Tania McMahon # +# Date: 05/30/02 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +Decay MyB- +1.000 MyD*0 MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0383 K- pi+ PHSP; +0.1390 K- pi+ pi0 D_DALITZ; +0.0749 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +0.0383 K+ pi- PHSP; +0.1390 K+ pi- pi0 D_DALITZ; +0.0749 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +0.2265 MyK_S0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.2265 MyK_S0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_00.dec b/BaBar_2014/BpBm_Dstar0Kstar_00.dec new file mode 100644 index 0000000..4ecbb07 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_00.dec @@ -0,0 +1,77 @@ +################################################### +# # +# Decay: B+ -> anti-D*0 K*+, B- -> X; + cc # +# # +# Author: Tania McMahon # +# Date: 05/30/02 # +# Update: Stephen Levy 01/20/03 # +# Date: 01/20/03 # +# Only longitudinal polarization # +# |H+|=|H-|=0, |H0|=1 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +Decay MyB- +1.000 MyD*0 MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0383 K- pi+ PHSP; +0.1390 K- pi+ pi0 D_DALITZ; +0.0749 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +0.0383 K+ pi- PHSP; +0.1390 K+ pi- pi0 D_DALITZ; +0.0749 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +0.2265 MyK_S0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.2265 MyK_S0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_11.dec b/BaBar_2014/BpBm_Dstar0Kstar_11.dec new file mode 100644 index 0000000..79026ae --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_11.dec @@ -0,0 +1,77 @@ +################################################### +# # +# Decay: B+ -> anti-D*0 K*+, B- -> X; + cc # +# # +# Author: Tania McMahon # +# Date: 05/30/02 # +# Update: Stephen Levy 01/20/03 # +# Date: 01/20/03 # +# Only transverse polarization # +# |H+|=|H-|=1, |H0|=0 # +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK*+ K*+ +Alias MyK*- K*- +ChargeConj MyK*+ MyK*- +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay MyB- +1.000 MyD*0 MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.0383 K- pi+ PHSP; +0.1390 K- pi+ pi0 D_DALITZ; +0.0749 K- pi+ pi+ pi- PHSP; +Enddecay +Decay Myanti-D0 +0.0383 K+ pi- PHSP; +0.1390 K+ pi- pi0 D_DALITZ; +0.0749 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +0.2265 MyK_S0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +Decay MyK*- +0.2265 MyK_S0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_D0CabibboNonCP.dec b/BaBar_2014/BpBm_Dstar0Kstar_D0CabibboNonCP.dec new file mode 100644 index 0000000..6ca9530 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_D0CabibboNonCP.dec @@ -0,0 +1,111 @@ +##################################################### +# # +# Decay: B- -> D*0 K*- B+ -> D*0bar K*+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# D*0 -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D*0 MyK*- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD*0 MyK*+ PHSP; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Dstar0Kstar_D0mCPp.dec b/BaBar_2014/BpBm_Dstar0Kstar_D0mCPp.dec new file mode 100644 index 0000000..587f5cf --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_D0mCPp.dec @@ -0,0 +1,82 @@ +#################################################### +# Decay: B- -> D*0 K*- # +# |-> KS pi- # +# D0 |-> K- pi0 # +# |-> K+ K- # +# pi+ pi- # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# update: Ref [B1]: +# +Decay MyB+ +1.0000 Myanti-D*0 MyK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyB- +1.0000 MyD*0 MyK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.742 K- K+ PHSP; +0.258 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.742 K+ K- PHSP; +0.258 pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +1.000 MyKs pi+ VSS; +Enddecay +# +Decay MyK*- +1.000 MyKs pi- VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_D0mpipimKK.dec b/BaBar_2014/BpBm_Dstar0Kstar_D0mpipimKK.dec new file mode 100644 index 0000000..fd2b7fa --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_D0mpipimKK.dec @@ -0,0 +1,84 @@ +#################################################### +# Decay: B- -> D*0 K*- # +# |-> KS pi- # +# D0 |-> K- pi0 # +# |-> K+ K- # +# pi+ pi- # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# update: Ref [B1]: +# +Decay MyB+ +1.0000 Myanti-D*0 MyK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyB- +1.0000 MyD*0 MyK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.742 K- K+ PHSP; +0.258 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +0.742 K+ K- PHSP; +0.258 pi+ pi- PHSP; +Enddecay +# +Decay MyK*+ +0.5784 MyKs pi+ VSS; +0.4216 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +0.5784 MyKs pi- VSS; +0.4216 K- pi0 VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_DrhoHELAMP.dec b/BaBar_2014/BpBm_Dstar0Kstar_DrhoHELAMP.dec new file mode 100644 index 0000000..8d7d046 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_DrhoHELAMP.dec @@ -0,0 +1,148 @@ +#################################################### +# Decay: B- -> D*0 K*- # +# |-> brec c'tail |-> KS pi- # +# |-> K- pi0 # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyKs K_S0 +Alias Myomega omega +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK0 K0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-K0 anti-K0 +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +# B->DK, recommendation +# http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: +# update: Ref [B1]: +# +Decay MyB+ +1.0000 Myanti-D*0 MyK*+ SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyB- +1.0000 MyD*0 MyK*- SVV_HELAMP 0.228 0.0 0.283 0.0 0.932 0; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +0.5784 MyKs pi+ VSS; +0.4216 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +0.5784 MyKs pi- VSS; +0.4216 K- pi0 VSS; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKsKK_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKsKK_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..f09213d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKsKK_Ksmpipi_PHSP.dec @@ -0,0 +1,62 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> K+K- K_S0 # +# -> pi+ pi- # +# # +# Longitudinal polarization # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKsKpi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKsKpi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..6df2ef4 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKsKpi_Ksmpipi_PHSP.dec @@ -0,0 +1,64 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. # +# | # +# `-> Kpi K_S0 # +# | # +# ` -> pi+ pi- # +# # +# long. polarization # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD0 +6.9 K- pi+ MyK_S0 PHSP; +5.2 K+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +6.9 K+ pi- MyK_S0 PHSP; +5.2 K- pi+ MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKspipi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKspipi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..0ec35b8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mKspipi_Ksmpipi_PHSP.dec @@ -0,0 +1,62 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> pi+pi- K_S0 # +# -> pi+ pi- # +# # +# Longitudinal polarization # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mpi0pipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mpi0pipi_PHSP.dec new file mode 100644 index 0000000..86cc592 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_ln_D0mpi0pipi_PHSP.dec @@ -0,0 +1,57 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> pi+pi- pi0 # +# # +# Longitudinal polarization # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKsKK_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKsKK_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..84f169f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKsKK_Ksmpipi_PHSP.dec @@ -0,0 +1,62 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> K+K- K_S0 # +# -> pi+ pi- # +# # +# Transverse polarization # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKsKpi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKsKpi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..2a33173 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKsKpi_Ksmpipi_PHSP.dec @@ -0,0 +1,64 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. # +# | # +# `-> Kpi K_S0 # +# | # +# ` -> pi+ pi- # +# Transv. polarization # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +6.9 K- pi+ MyK_S0 PHSP; +5.2 K+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +6.9 K+ pi- MyK_S0 PHSP; +5.2 K- pi+ MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKspipi_Ksmpipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKspipi_Ksmpipi_PHSP.dec new file mode 100644 index 0000000..b779a75 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mKspipi_Ksmpipi_PHSP.dec @@ -0,0 +1,62 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> pi+pi- K_S # +# -> pi+ pi- # +# # +# Transverse polarization # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mpi0pipi_PHSP.dec b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mpi0pipi_PHSP.dec new file mode 100644 index 0000000..fa020fc --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0Kstar_tr_D0mpi0pipi_PHSP.dec @@ -0,0 +1,56 @@ +################################################################# +# # +# Decay: B- -> D*0 K*-, B+ -> X + c.c. +# D0 pi0/gamma # +# | # +# `-> pi+pi-pi0 # +# # +# # +# Transverse polarization # +# # +# Author: G.Cavoto # +# Date: 09/19/03 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 K*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Dstar0_3pi_pi0.dec b/BaBar_2014/BpBm_Dstar0_3pi_pi0.dec new file mode 100644 index 0000000..5e89c62 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0_3pi_pi0.dec @@ -0,0 +1,136 @@ +############################################################## +# # +# Decay: B- -> D*(2007)0 pi+ pi- pi0 pi-, B+ -> X # +# | # +# |->D0 X # +# | # +# |->reconstructible modes # +# # +# + cc # +# # +# Author: B. Dahmes (bdahmes@slac.stanford.edu) 23/8/02 # +############################################################## +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyomegaDdk omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi+ pi0 pi- pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ pi+ pi0 pi- PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyomegaDdk +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +End + + + + diff --git a/BaBar_2014/BpBm_Dstar0_omega_pi.dec b/BaBar_2014/BpBm_Dstar0_omega_pi.dec new file mode 100644 index 0000000..8473efe --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0_omega_pi.dec @@ -0,0 +1,141 @@ +############################################################## +# # +# Decay: B- -> D*(2007)0 omega pi-, B+ -> X # +# | | # +# |->D0 X |-> pi+ pi- pi0 # +# | # +# |->reconstructible modes # +# # +# + cc # +# # +# Author: B. Dahmes (bdahmes@slac.stanford.edu) 23/8/02 # +############################################################## +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Myomega omega +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyomegaDdk omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 Myomega pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 Myomega pi+ PHSP; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 MyomegaDdk K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyomegaDdk +1.0000 pi- pi+ VSS; +Enddecay +# +# +# +End + + + + diff --git a/BaBar_2014/BpBm_Dstar0barK3pi_Ds1Dstar0K_Kpi.dec b/BaBar_2014/BpBm_Dstar0barK3pi_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..4d0c27b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0barK3pi_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D*0bar Ds1+, +# D0bar->K3pi +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD*0Bk3pi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_K3pi.dec b/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_K3pi.dec new file mode 100644 index 0000000..727ae2d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_K3pi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D*0bar Ds1+, +# D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(K3Pi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD*0Bkpi MyD'_s1+k3pi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_Kpi.dec b/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..95b1e9a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D*0bar Ds1+, +# D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD*0Bkpi MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_Kpipi0.dec b/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_Kpipi0.dec new file mode 100644 index 0000000..cec0901 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0barKpi_Ds1Dstar0K_Kpipi0.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D*0bar Ds1+, +# D0bar->Kpi +# Ds1 -> D*0 K+, D*0 -> D0(KPiPi0) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD*0Bkpi MyD'_s1+kpipi0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0barKpipi0_Ds1Dstar0K_Kpi.dec b/BaBar_2014/BpBm_Dstar0barKpipi0_Ds1Dstar0K_Kpi.dec new file mode 100644 index 0000000..5801d9c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0barKpipi0_Ds1Dstar0K_Kpi.dec @@ -0,0 +1,219 @@ +####################################################### +# # +# Decay: B+ -> D*0bar Ds1+, +# D0bar->Kpipi0 +# Ds1 -> D*0 K+, D*0 -> D0(KPi) pi0/gamma +# Author : J-P.Lees & P.Robbe +# +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD'_s1+kpi D'_s1+ +Alias MyD'_s1-kpi D'_s1- +Alias MyD'_s1+kpipi0 D'_s1+ +Alias MyD'_s1-kpipi0 D'_s1- +Alias MyD'_s1+k3pi D'_s1+ +Alias MyD'_s1-k3pi D'_s1- +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD'_s1+kpi MyD'_s1-kpi +ChargeConj MyD'_s1+kpipi0 MyD'_s1-kpipi0 +ChargeConj MyD'_s1+k3pi MyD'_s1-k3pi +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyD*0Bkpipi0 MyD'_s1+kpi SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +Enddecay +CDecay MyB- +# +Decay MyD'_s1+kpi +1.0000 MyD*0kpi K+ PHSP; +Enddecay +CDecay MyD'_s1-kpi +# +Decay MyD'_s1+kpipi0 +1.0000 MyD*0kpipi0 K+ PHSP; +Enddecay +CDecay MyD'_s1-kpipi0 +# +Decay MyD'_s1+k3pi +1.0000 MyD*0k3pi K+ PHSP; +Enddecay +CDecay MyD'_s1-k3pi +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0bar_Kp.dec b/BaBar_2014/BpBm_Dstar0bar_Kp.dec new file mode 100644 index 0000000..d360c6c --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0bar_Kp.dec @@ -0,0 +1,60 @@ +###################################################### +# # +# Decay: B+ -> D*0bar K+, B- -> X # +# |-> D0bar pi0,gamma # +# |-> K0s K0s # +# # +# + c.c. # +# # +# Author : Josh Thompson # +# Created: 17 September 2003 # +###################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyK_S0 K_S0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*0 D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0 K- PHSP; +Enddecay +# +Decay Myanti-D*0 +0.619 Myanti-D0 pi0 PHSP; +0.381 Myanti-D0 gamma PHSP; +Enddecay +# +Decay MyD*0 +0.619 MyD0 pi0 PHSP; +0.381 MyD0 gamma PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0mD0mmKpimmpi0mpi_Xclnu.dec b/BaBar_2014/BpBm_Dstar0mD0mmKpimmpi0mpi_Xclnu.dec new file mode 100644 index 0000000..a8d1e5b --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0mD0mmKpimmpi0mpi_Xclnu.dec @@ -0,0 +1,110 @@ +############################################################################### +# Up(4S) -> B- B+ + CC # +# | | # +# | +-> X_c l- nu_bar (l = e or mu) # +# | # +# +-> D*0(D0(K-pi+) pi0) pi- # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xclnu b decay +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# -- reco B +Alias rB- B- +Alias rB+ B+ +ChargeConj rB+ rB- +# +Alias rD*0 D*0 +Alias ranti-D*0 anti-D*0 +ChargeConj rD*0 ranti-D*0 +# +Alias rD0 D0 +Alias ranti-D0 anti-D0 +ChargeConj rD0 ranti-D0 +# +# +Decay Upsilon(4S) +0.50000 rB+ myB- VSS; +0.50000 rB- myB+ VSS; +Enddecay +# ---------------------------------------------------------------------- +# -- B decay +# +Decay rB+ +1.000 ranti-D*0 pi+ SVS; +Enddecay +# +Decay rB- +1.000 rD*0 pi- SVS; +Enddecay +# -- D* decay +Decay rD*0 +1.000 rD0 pi0 VSS; +Enddecay +# +Decay ranti-D*0 +1.000 ranti-D0 pi0 VSS; +Enddecay +# -- D0 decay +Decay rD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay ranti-D0 +1.000 K+ pi- PHSP; +Enddecay +# ---------------------------------------------------------------------- +# force myB to always decay to X_c l nu +# +Decay myB- +0.0560 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0056 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0020 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0037 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0037 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0056 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB+ +0.0560 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0056 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0020 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0037 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0056 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0020 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0037 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0mD0mmKpimmpi0mpi_Xulnu.dec b/BaBar_2014/BpBm_Dstar0mD0mmKpimmpi0mpi_Xulnu.dec new file mode 100644 index 0000000..b349e4f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0mD0mmKpimmpi0mpi_Xulnu.dec @@ -0,0 +1,189 @@ +############################################################################### +# Up(4S) -> B- B+ + CC # +# | | # +# | +-> X_u l- nu_bar (l = e or mu) # +# | # +# +-> D*0(D0(K-pi+) pi0) pi- # +# # +# # +# # +# Mail: ursl@slac.stanford.edu # +############################################################################### +# -- Xulnu b decay +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# -- reco B +Alias rB- B- +Alias rB+ B+ +ChargeConj rB+ rB- +# +Alias rD*0 D*0 +Alias ranti-D*0 anti-D*0 +ChargeConj rD*0 ranti-D*0 +# +Alias rD0 D0 +Alias ranti-D0 anti-D0 +ChargeConj rD0 ranti-D0 +# +# +Decay Upsilon(4S) +0.50000 rB+ myB- VSS; +0.50000 rB- myB+ VSS; +Enddecay +# ---------------------------------------------------------------------- +# -- B decay +# +Decay rB+ +1.000 ranti-D*0 pi+ SVS; +Enddecay +# +Decay rB- +1.000 rD*0 pi- SVS; +Enddecay +# -- D* decay +Decay rD*0 +1.000 rD0 pi0 VSS; +Enddecay +# +Decay ranti-D*0 +1.000 ranti-D0 pi0 VSS; +Enddecay +# -- D0 decay +Decay rD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay ranti-D0 +1.000 K+ pi- PHSP; +Enddecay +# ---------------------------------------------------------------------- +# force myB to always decay to X_u l nu +Decay myB- +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000080 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000050 eta' e- anti-nu_e PHOTOS ISGW2; +0.000076 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000095 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000004 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000028 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000003 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000003 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000036 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000036 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000050 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000050 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000016 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000016 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000030 pi(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000036 rho(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000036 omega(2S) e- anti-nu_e PHOTOS ISGW2; +0.000090 pi0 mu- anti-nu_mu ISGW2; +0.000080 eta mu- anti-nu_mu ISGW2; +0.000125 rho0 mu- anti-nu_mu ISGW2; +0.000125 omega mu- anti-nu_mu ISGW2; +0.000050 eta' mu- anti-nu_mu ISGW2; +0.000076 a_10 mu- anti-nu_mu ISGW2; +0.000095 b_10 mu- anti-nu_mu ISGW2; +0.000004 a_00 mu- anti-nu_mu ISGW2; +0.000028 a_20 mu- anti-nu_mu ISGW2; +0.000003 f_0 mu- anti-nu_mu ISGW2; +0.000003 f'_0 mu- anti-nu_mu ISGW2; +0.000036 f_1 mu- anti-nu_mu ISGW2; +0.000036 f'_1 mu- anti-nu_mu ISGW2; +0.000050 h_1 mu- anti-nu_mu ISGW2; +0.000050 h'_1 mu- anti-nu_mu ISGW2; +0.000016 f_2 mu- anti-nu_mu ISGW2; +0.000016 f'_2 mu- anti-nu_mu ISGW2; +0.000030 pi(2S)0 mu- anti-nu_mu ISGW2; +0.000036 rho(2S)0 mu- anti-nu_mu ISGW2; +0.000036 omega(2S) mu- anti-nu_mu ISGW2; +Enddecay +# +Decay myB+ +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000080 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000050 eta' e+ nu_e PHOTOS ISGW2; +0.000076 a_10 e+ nu_e PHOTOS ISGW2; +0.000095 b_10 e+ nu_e PHOTOS ISGW2; +0.000004 a_00 e+ nu_e PHOTOS ISGW2; +0.000028 a_20 e+ nu_e PHOTOS ISGW2; +0.000003 f_0 e+ nu_e PHOTOS ISGW2; +0.000003 f'_0 e+ nu_e PHOTOS ISGW2; +0.000036 f_1 e+ nu_e PHOTOS ISGW2; +0.000036 f'_1 e+ nu_e PHOTOS ISGW2; +0.000050 h_1 e+ nu_e PHOTOS ISGW2; +0.000050 h'_1 e+ nu_e PHOTOS ISGW2; +0.000016 f_2 e+ nu_e PHOTOS ISGW2; +0.000016 f'_2 e+ nu_e PHOTOS ISGW2; +0.000030 pi(2S)0 e+ nu_e PHOTOS ISGW2; +0.000036 rho(2S)0 e+ nu_e PHOTOS ISGW2; +0.000036 omega(2S) e+ nu_e PHOTOS ISGW2; +0.000090 pi0 mu+ nu_mu ISGW2; +0.000080 eta mu+ nu_mu ISGW2; +0.000125 rho0 mu+ nu_mu ISGW2; +0.000125 omega mu+ nu_mu ISGW2; +0.000050 eta' mu+ nu_mu ISGW2; +0.000076 a_10 mu+ nu_mu ISGW2; +0.000095 b_10 mu+ nu_mu ISGW2; +0.000004 a_00 mu+ nu_mu ISGW2; +0.000028 a_20 mu+ nu_mu ISGW2; +0.000003 f_0 mu+ nu_mu ISGW2; +0.000003 f'_0 mu+ nu_mu ISGW2; +0.000036 f_1 mu+ nu_mu ISGW2; +0.000036 f'_1 mu+ nu_mu ISGW2; +0.000050 h_1 mu+ nu_mu ISGW2; +0.000050 h'_1 mu+ nu_mu ISGW2; +0.000016 f_2 mu+ nu_mu ISGW2; +0.000016 f'_2 mu+ nu_mu ISGW2; +0.000030 pi(2S)0 mu+ nu_mu ISGW2; +0.000036 rho(2S)0 mu+ nu_mu ISGW2; +0.000036 omega(2S) mu+ nu_mu ISGW2; +Enddecay +# +Decay pi(2S)+ +0.3500 rho0 pi+ PHSP; +0.3500 rho+ pi0 PHSP; +0.2000 pi+ pi+ pi- PHSP; +0.1000 pi+ pi0 pi0 PHSP; +Enddecay +Decay pi(2S)- +0.3500 rho0 pi- PHSP; +0.3500 rho- pi0 PHSP; +0.2000 pi- pi+ pi- PHSP; +0.1000 pi- pi0 pi0 PHSP; +Enddecay +Decay pi(2S)0 +0.3500 rho+ pi- PHSP; +0.3500 rho- pi+ PHSP; +0.2000 pi+ pi- pi0 PHSP; +0.1000 pi0 pi0 pi0 PHSP; +Enddecay +# +Decay rho(2S)+ +0.4000 pi+ pi0 PHSP; +0.4000 pi+ pi+ pi- pi0 PHSP; +0.2000 pi+ pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)- +0.4000 pi- pi0 PHSP; +0.4000 pi- pi+ pi- pi0 PHSP; +0.2000 pi- pi0 pi0 pi0 PHSP; +Enddecay +Decay rho(2S)0 +0.4000 pi+ pi- PHSP; +0.3500 pi+ pi- pi+ pi- PHSP; +0.1500 pi+ pi- pi0 pi0 PHSP; +0.1000 pi0 pi0 pi0 pi0 PHSP; +Enddecay +Decay omega(2S) +0.5000 rho+ pi- PHSP; +0.5000 rho- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_D0CabibboNonCP.dec b/BaBar_2014/BpBm_Dstar0pi_D0CabibboNonCP.dec new file mode 100644 index 0000000..584e5a9 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_D0CabibboNonCP.dec @@ -0,0 +1,111 @@ +##################################################### +# # +# Decay: B- -> D*0 pi- B+ -> D*0bar pi+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# D*0 -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D*0 pi- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD*0 pi+ PHSP; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mK3pi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mK3pi.dec new file mode 100644 index 0000000..9dd11fe --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mK3pi.dec @@ -0,0 +1,51 @@ +##################################################################### +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 gamma (D0 -> K- pi+ pi+ pi-))# +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 05/25/2001 # +##################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKK.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKK.dec new file mode 100644 index 0000000..f0ba3cd --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKK.dec @@ -0,0 +1,51 @@ +################################################################### +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 gamma (D0 -> K- K+)) # +# B+ -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpi.dec new file mode 100644 index 0000000..a2e8d53 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################################### +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 gamma (D0 -> K- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 05/25/2001 # +################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpipi0.dec new file mode 100644 index 0000000..0f691b1 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKpipi0.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 gamma (D0 -> K- pi+ p0)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 05/25/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay + +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec new file mode 100644 index 0000000..51a6b94 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKspi0_Ksmpipi.dec @@ -0,0 +1,68 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> K_S0 pi0 # +# | # +# `-> pi+ pi- # +# # +# # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec new file mode 100644 index 0000000..50437ce --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mKsrho0_Ksmpipi_rho0mpipi.dec @@ -0,0 +1,72 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> rho0 K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec new file mode 100644 index 0000000..9667d9d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec @@ -0,0 +1,79 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> eta' K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `-> rho0 gamma # +# | # +# `-> pi+ pi- # +# # +# Author: Steve Schrenk, based on file from # +# Steve Schrenk based on file from. # +# Giovanni Marchiori # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta' eta' +Alias Myrho0 rho0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myeta' +1.000 Myrho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec new file mode 100644 index 0000000..ad47930 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0momegaKs_omegam3pi_Ksmpipi.dec @@ -0,0 +1,74 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> omega K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Steve Schrenk based on file from. # +# Giovanni Marchiori # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myomega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec new file mode 100644 index 0000000..7bdd2ab --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mphiKs_phimKK_Ksmpipi.dec @@ -0,0 +1,74 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 gamma # +# D0 # +# | # +# `-> phi K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> K+ K- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myphi phi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mpipi.dec new file mode 100644 index 0000000..2313448 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0gamma_D0mpipi.dec @@ -0,0 +1,51 @@ +################################################################### +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 gamma (D0 -> pi- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giovanni Marchiori # +# Date: 03/15/2002 # +################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mK3pi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mK3pi.dec new file mode 100644 index 0000000..4ad74f7 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mK3pi.dec @@ -0,0 +1,51 @@ +################################################################### +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 pi0 (D0 -> K- pi+ pi+ pi-))# +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################### +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKK.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKK.dec new file mode 100644 index 0000000..157fd4d --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKK.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 pi0 (D0 -> K- K+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- K+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpi.dec new file mode 100644 index 0000000..d4b0777 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 pi0 (D0 -> K- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpipi0.dec new file mode 100644 index 0000000..1bfb80a --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKpipi0.dec @@ -0,0 +1,50 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 pi0 (D0 -> K- pi+ p0)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +Decay Myanti-D0 +1.000 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec new file mode 100644 index 0000000..02c73ac --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKspi0_Ksmpipi.dec @@ -0,0 +1,68 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> K_S0 pi0 # +# | # +# `-> pi+ pi- # +# # +# # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec new file mode 100644 index 0000000..16548d8 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mKsrho0_Ksmpipi_rho0mpipi.dec @@ -0,0 +1,72 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> rho0 K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 + +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 + +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 MyRho0 MyK_S0 SVS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec new file mode 100644 index 0000000..40c33ab --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0metapKs_etapmrho0g_rho0mpipi_Ksmpipi.dec @@ -0,0 +1,79 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> eta' K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `-> rho0 gamma # +# | # +# `-> pi+ pi- # +# # +# Author: Steve Schrenk, based on file from # +# Steve Schrenk based on file from. # +# Giovanni Marchiori # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myeta' eta' +Alias Myrho0 rho0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 MyK_S0 Myeta' PHSP; +Enddecay +# +Decay Myeta' +1.000 Myrho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec new file mode 100644 index 0000000..1f617df --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0momegaKs_omegam3pi_Ksmpipi.dec @@ -0,0 +1,74 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> omega K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> pi+ pi- pi0 # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Steve Schrenk based on file from. # +# Giovanni Marchiori # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myomega omega +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myomega MyK_S0 SVS; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec new file mode 100644 index 0000000..c55f1eb --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mphiKs_phimKK_Ksmpipi.dec @@ -0,0 +1,74 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi-, B+ -> X; + cc # +# Dstar0 -> D0 pi0 # +# D0 # +# | # +# `-> phi K_S0 # +# | | # +# | `-> pi+ pi- # +# | # +# `--> K+ K- # +# # +# # +# # +# Author: Steve Schrenk, based on file from # +# Giovanni Marchiori. # +# Date: 29 Aug 2003 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Alias Myphi phi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myanti-D0 +1.000 Myphi MyK_S0 SVS; +Enddecay +# +Decay Myphi +1.000 K+ K- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mpipi.dec b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mpipi.dec new file mode 100644 index 0000000..9121c37 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_Dstar0mD0pi0_D0mpipi.dec @@ -0,0 +1,51 @@ +################################################################# +# # +# Decay: B- -> Dstar0 pi- (Dstar0 ->D0 pi0 (D0 -> pi- pi+)) # +# B+ -> X; + cc # +# # +# Author: Giampiero Mancinelli # +# Date: 03/09/2001 # +################################################################# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +# +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +ChargeConj MyD*0 Myanti-D*0 +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +ChargeConj MyD0 Myanti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.000 pi- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_DstarmD0gammamD0mKspi0.dec b/BaBar_2014/BpBm_Dstar0pi_DstarmD0gammamD0mKspi0.dec new file mode 100644 index 0000000..20dee62 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_DstarmD0gammamD0mKspi0.dec @@ -0,0 +1,52 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B+ B- # +# # +# Decay: B- -> D*0 pi--, B0 -> X +c.c. # +# |-> D0 gamma # +# |-> Ks pi0 # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0bar anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B+ B- MyB+ MyB- VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyD*0 pi+ SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0bar pi- SVS; +Enddecay +# +Decay MyD*0bar +1.0000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_DstarmD0gammamD0mKspipi.dec b/BaBar_2014/BpBm_Dstar0pi_DstarmD0gammamD0mKspipi.dec new file mode 100644 index 0000000..4e42b31 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_DstarmD0gammamD0mKspipi.dec @@ -0,0 +1,52 @@ +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B+ B- # +# # +# Decay: B- -> D*0 pi--, B0 -> X +c.c. # +# |-> D0 gamma # +# |-> Ks pi pi # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0bar anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B+ B- MyB+ MyB- VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyD*0 pi+ SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0bar pi- SVS; +Enddecay +# +Decay MyD*0bar +1.0000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_DstarmD0pimD0mKspi0.dec b/BaBar_2014/BpBm_Dstar0pi_DstarmD0pimD0mKspi0.dec new file mode 100644 index 0000000..07341bb --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_DstarmD0pimD0mKspi0.dec @@ -0,0 +1,53 @@ + +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B+ B- # +# # +# Decay: B- -> D*0 pi-, B0 -> X +c.c. # +# |-> D0 pi # +# |-> Ks pi0 # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0bar anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B+ B- MyB+ MyB- VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyD*0 pi+ SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0bar pi- SVS; +Enddecay +# +Decay MyD*0bar +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pi_DstarmD0pimD0mKspipi.dec b/BaBar_2014/BpBm_Dstar0pi_DstarmD0pimD0mKspipi.dec new file mode 100644 index 0000000..8f44d50 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pi_DstarmD0pimD0mKspipi.dec @@ -0,0 +1,53 @@ + +#################################################### +# # +# Inclusive D*rho decay.dec #1 # +# # +# D*rho signal from B+ B- # +# # +# Decay: B- -> D*0 pi-, B0 -> X +c.c. # +# |-> D0 pi # +# |-> Ks pi pi # +# # +# 06 May 2003 Kelly E Ford # +# # +#################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0bar anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 B+ B- MyB+ MyB- VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyD*0 pi+ SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K_S0 pi+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 MyD*0bar pi- SVS; +Enddecay +# +Decay MyD*0bar +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +1.0000 K_S0 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0pip.dec b/BaBar_2014/BpBm_Dstar0pip.dec new file mode 100644 index 0000000..d3f4baa --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0pip.dec @@ -0,0 +1,32 @@ + +#################################################### +# # +# Inclusive D*pi decay.dec #2 # +# # +# D*pi from B+B- for SP2 # +# # +# Decay: B+ -> D*0(2007) pi+, B- -> X +c.c. # +# |-> X # +# # +# 5 Feb 99 # +# Philip Hart (IHB AWG) # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 anti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 D*0 pi- SVS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K2pi.dec b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K2pi.dec new file mode 100644 index 0000000..3d1f821 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K2pi.dec @@ -0,0 +1,48 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D*(2007)0bar p anti-p pi+, B- -> X # +# +-> D0bar pi0 # +# +-> K+ pi- pi0 # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-D*0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD*0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K3pi.dec b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K3pi.dec new file mode 100644 index 0000000..12ba45f --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_K3pi.dec @@ -0,0 +1,49 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D*(2007)0bar p anti-p pi+ B- -> X # +# +-> D0bar pi0 # +# +-> K+ pi- pi- pi+ # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-D*0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD*0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Kpi.dec b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Kpi.dec new file mode 100644 index 0000000..d662c93 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Kpi.dec @@ -0,0 +1,48 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D*(2007)0bar p anti-p pi+, B- -> X # +# +-> D0bar pi0 # +# +-> K+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay + +Decay MyB+ + 1.00000 Myanti-D*0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD*0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 + 1.00000 K+ pi- PHSP; +Enddecay +# +Decay MyD0 + 1.00000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Ks2pi.dec b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Ks2pi.dec new file mode 100644 index 0000000..172a4fd --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0ppbarpi_D0pi0_Ks2pi.dec @@ -0,0 +1,64 @@ +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# # +# Decay: B+ -> D*(2007)0bar p anti-p pi+ B- -> X # +# +-> D0bar pi0 # +# -> K0 pi+ pi- # +# # +# Author: Haibo Li, Wisconsin # +# Date: June 4 2004 # +# # +#:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*:::*# +# +Alias MyB- B- +Alias MyB+ B+ +ChargeConj MyB+ MyB- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-D*0 p+ anti-p- pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyD*0 p+ anti-p- pi- PHSP; +Enddecay +# +Decay Myanti-D*0 + 1.00000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD*0 + 1.00000 MyD0 pi0 VSS; +Enddecay +# // resonance structure in Dalitz modelled +Decay Myanti-D0 +1.0000 MyK0 pi- pi+ D_DALITZ; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.0000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstar0rho_D0CabibboNonCP.dec b/BaBar_2014/BpBm_Dstar0rho_D0CabibboNonCP.dec new file mode 100644 index 0000000..0ac3f82 --- /dev/null +++ b/BaBar_2014/BpBm_Dstar0rho_D0CabibboNonCP.dec @@ -0,0 +1,111 @@ +##################################################### +# # +# Decay: B- -> D*0 rho- B+ -> D*0bar rho+ # +# | | # +# |-> K*+ K- <-| # +# |-> K*- K+ <-| # +# |-> K*0 Ks <-| # +# |-> K*0bar Ks <-| # +# |-> rho+ pi- <-| # +# |-> rho- pi+ <-| # +# # +# with Ks -> pi+ pi- # +# K*0 -> K- pi+ # +# K*+ -> Ks pi+ and K+ pi0 # +# rho+ -> generic # +# D*0 -> generic # +# # +# Author: Abi Soffer # +# created: 6 Nov 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyK*+ K*+ +Alias MyK*- K*- + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 + +Alias MyKs K_S0 + + +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 MyB+ B- VSS; +Enddecay + +# write the B decays as b->u. This doesn't really matter in the final +# state, but will make identifying them in the MC truth slightly easier: +# +Decay MyB- +1.00 Myanti-D*0 rho- PHSP; +Enddecay + +Decay MyB+ +1.00 MyD*0 rho+ PHSP; +Enddecay + +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay + +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay + +Decay MyD0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay Myanti-D0 +0.25 MyK*+ K- SVS; +0.25 MyK*- K+ SVS; +0.125 MyK*0 MyKs SVS; +0.125 Myanti-K*0 MyKs SVS; +0.125 rho+ pi- SVS; +0.125 rho- pi+ SVS; +Enddecay + +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay + +Decay MyK*0 +1.000 K- pi+ VSS; +Enddecay + +Decay Myanti-K*0 +1.000 K+ pi- VSS; +Enddecay + +# K*+ -> Ks pi+ 50%, due to K0 -> Ks: +Decay MyK*+ +0.5 MyKs pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay + +Decay MyK*- +0.5 MyKs pi- VSS; +0.5 K- pi0 VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_DstarD0_D0p_Kpi.dec b/BaBar_2014/BpBm_DstarD0_D0p_Kpi.dec new file mode 100644 index 0000000..1c6b77b --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0p_Kpi.dec @@ -0,0 +1,93 @@ +############################################################ +# # +# Exclusive D*D decay.dec #2 # +# # +# D*D . from B+ B- for SP3 # +# # +# Decay: B+ -> D*+ D0 B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# # +# DstarD0_D0p_Kpi.dec # +# + cc # +# # +# Author: J. Schieck 16/08/00 # +# V. Lillard 20/08/00 # +############################################################ +# +# +Define beta 0.39 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +# + +ChargeConj MyB+ MyB- +ChargeConj MyD*+ MyD*- +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD*0 Myanti-D*0 +ChargeConj MyD0 Myanti-D0 + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.0000 MyD*+ Myanti-D0 SVS; +Enddecay +# +# +Decay MyD*+ +1.0000 MyD0 pi+ VSS; +Enddecay +# + +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# + + +CDecay MyD*- +#CDecay MyD- +CDecay Myanti-D0 +CDecay MyB- + +# +# +# +End + + + diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_K3piK3pi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piK3pi.dec new file mode 100644 index 0000000..ed52b20 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piK3pi.dec @@ -0,0 +1,167 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpi.dec new file mode 100644 index 0000000..ae2bac6 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpipi0.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpipi0.dec new file mode 100644 index 0000000..4cf5fc4 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKpipi0.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKspipi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKspipi.dec new file mode 100644 index 0000000..b3a6982 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_K3piKspipi.dec @@ -0,0 +1,171 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KpiK3pi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiK3pi.dec new file mode 100644 index 0000000..0df5a7a --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiK3pi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpi.dec new file mode 100644 index 0000000..15a6a73 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpipi0.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpipi0.dec new file mode 100644 index 0000000..b81f25d --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKpipi0.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKspipi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKspipi.dec new file mode 100644 index 0000000..c6fe1ca --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KpiKspipi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0K3pi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0K3pi.dec new file mode 100644 index 0000000..68b0811 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0K3pi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kpi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kpi.dec new file mode 100644 index 0000000..76194e5 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kpi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kpipi0.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kpipi0.dec new file mode 100644 index 0000000..cc41187 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kpipi0.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kspipi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kspipi.dec new file mode 100644 index 0000000..434c740 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_Kpipi0Kspipi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiK3pi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiK3pi.dec new file mode 100644 index 0000000..06f24e3 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiK3pi.dec @@ -0,0 +1,171 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKpi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKpi.dec new file mode 100644 index 0000000..0fcb6d9 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKpi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKpipi0.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKpipi0.dec new file mode 100644 index 0000000..7c663fc --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKpipi0.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKspipi.dec b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKspipi.dec new file mode 100644 index 0000000..039002f --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_D0piD0_KspipiKspipi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD0_1 pi+ VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD0_1 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_1 +# + +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiK3pi.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiK3pi.dec new file mode 100644 index 0000000..2da99aa --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiK3pi.dec @@ -0,0 +1,161 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKpi.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKpi.dec new file mode 100644 index 0000000..c15aa98 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKpi.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKpipi0.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKpipi0.dec new file mode 100644 index 0000000..8f48634 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKpipi0.dec @@ -0,0 +1,136 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK_S0 MyK_S0 +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKspipi.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKspipi.dec new file mode 100644 index 0000000..7160d37 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KpipiKspipi.dec @@ -0,0 +1,146 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay MyD-_1 +# +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiK3pi.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiK3pi.dec new file mode 100644 index 0000000..ba5b75e --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiK3pi.dec @@ -0,0 +1,172 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD0_2 +# K- 3pi (total 0.0761) +0.0355 Mya_1+ K- SVS; +0.0097 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 Myanti-K*0 pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay MyK_1- + +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +CDecay Mya_1+ + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay Myanti-K*0 +# +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKpi.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKpi.dec new file mode 100644 index 0000000..c5c5dcc --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKpi.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD0_2 +1.0000 K- pi+ PHSP; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKpipi0.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKpipi0.dec new file mode 100644 index 0000000..6ecb60d --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKpipi0.dec @@ -0,0 +1,147 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD0_2 +1.0000 K- pi+ pi0 D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKspipi.dec b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKspipi.dec new file mode 100644 index 0000000..37d6432 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD0_Dchpi0D0_KspiKspipi.dec @@ -0,0 +1,148 @@ +############################################################ +# # +# Exclusive D(*)D(*) decay.dec # +## +# D*D* . from B+ B- for SP5 # +# # +# Decay: B+ -> D(*)0 D*+ B- -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# T. Piatenko 03/20/03 (created) # +############################################################ +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+_1 D*+ +Alias MyD*-_1 D*- +Alias MyD*+_2 D*+ +Alias MyD*-_2 D*- +Alias MyD*0_1 D*0 +Alias Myanti-D*0_1 anti-D*0 +Alias MyD*0_2 D*0 +Alias Myanti-D*0_2 anti-D*0 +Alias MyD0_1 D0 +Alias Myanti-D0_1 anti-D0 +Alias MyD0_2 D0 +Alias Myanti-D0_2 anti-D0 +Alias MyD+_1 D+ +Alias MyD-_1 D- +Alias MyD+_2 D+ +Alias MyD-_2 D- +Alias MyD_s*+_1 D_s*+ +Alias MyD_s*-_1 D_s*- +Alias MyD_s*+_2 D_s*+ +Alias MyD_s*-_2 D_s*- +Alias MyD_s+_1 D_s+ +Alias MyD_s-_1 D_s- +Alias MyD_s+_2 D_s+ +Alias MyD_s-_2 D_s- +# +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1- K_1- +Alias MyK_1+ K_1+ +# +Alias My2ndK*0B anti-K*0 +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# + +# +ChargeConj MyB+ MyB- +ChargeConj MyD*+_1 MyD*-_1 +ChargeConj MyD*+_2 MyD*-_2 +ChargeConj MyD*0_1 Myanti-D*0_1 +ChargeConj MyD*0_2 Myanti-D*0_2 + +ChargeConj MyD0_1 Myanti-D0_1 +ChargeConj MyD0_2 Myanti-D0_2 +ChargeConj MyD+_1 MyD-_1 +ChargeConj MyD+_2 MyD-_2 + +ChargeConj MyD_s*+_1 MyD_s*-_1 +ChargeConj MyD_s*+_2 MyD_s*-_2 +ChargeConj MyD_s+_1 MyD_s-_1 +ChargeConj MyD_s+_2 MyD_s-_2 + +ChargeConj Mya_1- Mya_1+ +ChargeConj Myanti-K*0 MyK*0 +ChargeConj MyK_1- MyK_1+ +ChargeConj MyK0 Myanti-K0 + +ChargeConj Myphi Myphi +# +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyD*+_1 Myanti-D0_2 SVS; +Enddecay +# + +# +CDecay MyB- +# +# +Decay MyD*+_1 +1.0000 MyD+_1 pi0 VSS; +Enddecay + +CDecay MyD*-_1 +# +# +Decay MyD+_1 +1.0000 Myanti-K0 pi+ PHSP; +Enddecay +# +CDecay MyD-_1 + +# + +# +Decay MyD0_2 +1.0000 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay + +CDecay Myanti-D0_2 +# + +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay + +CDecay Myanti-K0 + +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_DstarD_exclusive.dec b/BaBar_2014/BpBm_DstarD_exclusive.dec new file mode 100644 index 0000000..d4cc494 --- /dev/null +++ b/BaBar_2014/BpBm_DstarD_exclusive.dec @@ -0,0 +1,224 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D* . from B0 B0bar for SP3 # +# # +# Decay: Bc -> D* D Bc -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.5000 MyD*+ Myanti-D0 SVS; +0.5000 Myanti-D*0 MyD+ SVS; +Enddecay +# +Decay MyB- +0.5000 MyD*- MyD0 SVS; +0.5000 MyD*0 MyD- SVS; +Enddecay +# +Decay Myanti-D*0 +0.6666 Myanti-D0 pi0 VSS; +0.3333 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +0.6666 MyD0 pi0 VSS; +0.3333 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +0.2500 MyD+ pi0 VSS; +0.7500 MyD0 pi+ VSS; +Enddecay +# +Decay MyD*- +0.2500 MyD- pi0 VSS; +0.7500 MyD0 pi- VSS; +Enddecay +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK0bar pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 MyK0bar pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/BpBm_DstarDstar0_exclusive.dec b/BaBar_2014/BpBm_DstarDstar0_exclusive.dec new file mode 100644 index 0000000..dd13ba4 --- /dev/null +++ b/BaBar_2014/BpBm_DstarDstar0_exclusive.dec @@ -0,0 +1,225 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D*0 . from B+ B- for SP3 # +# # +# Decay: Bc -> D*(2010) D*0 Bc -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*+ Myanti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyD*- MyD*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D*0 +0.6666 Myanti-D0 pi0 VSS; +0.3333 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +0.6666 MyD0 pi0 VSS; +0.3333 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +0.7500 MyD0 pi+ VSS; +0.2500 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*- +0.7500 Myanti-D0 pi- VSS; +0.2500 MyD- pi0 VSS; +Enddecay + +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK0bar pi+ pi- D_DALITZ; +0.2000 MyK_S0 pi0 PHSP; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +# +Decay MyK0bar +1.0000 K_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +0.1666 MyK0bar pi+ pi0 D_DALITZ; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +# K- K+ pi+ pi0 (total 0.0260) +0.0449 Myphi pi+ pi0 PHSP; +0.0256 Myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0962 K- K+ pi+ pi0 PHSP; +# K0s pi+ pi+ pi- (total 0.0350) +0.0529 Mya_1+ K_S0 SVS; +0.0290 MyK_10 pi+ SVS; +0.0186 MyK*- pi+ pi+ PHSP; +0.0557 rho0 K_S0 pi+ PHSP; +0.0105 MyK_S0 pi+ pi+ pi- PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/BpBm_DstarDstar0_exclusive_mod.dec b/BaBar_2014/BpBm_DstarDstar0_exclusive_mod.dec new file mode 100644 index 0000000..a7f098a --- /dev/null +++ b/BaBar_2014/BpBm_DstarDstar0_exclusive_mod.dec @@ -0,0 +1,213 @@ +############################################################ +# # +# Exclusive D*D* decay.dec #1 # +# # +# D*D*0 . from B+ B- for SP3 # +# # +# Decay: Bc -> D*(2010) D*0 Bc -> X # +# | | # +# |->recon- |-> recon- # +# structible structible # +# modes modes # +# + cc # +# # +# Author: S. Xella (IHB AWG) 06/11/99 (inclusive modes)# +# J. Albert 07/02/00 (mod for excl.) # +############################################################ +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +# +Alias Mya_1+ a_1+ +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Alias My2ndK_1- K_1- +Alias My2ndK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias My2ndanti-K*0 anti-K*0 +Alias My2ndK_1+ K_1+ +Alias Myphi phi +Alias Myeta eta +Alias Myomega omega +Alias MyK_10 K_10 +Alias MyK_10B anti-K_10 +Alias MyK*- K*- +Alias MyK*+ K*+ +Alias MyK_S0 K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +ChargeConj MyD0 Myanti-D0 +ChargeConj MyD+ MyD- +ChargeConj MyK*0 Myanti-K*0 +ChargeConj My2ndK*0 My2ndanti-K*0 +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +ChargeConj MyK_10 MyK_10B +ChargeConj MyK0bar MyK0 +ChargeConj MyK*- MyK*+ +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*+ Myanti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyD*- MyD*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D*0 +0.5000 Myanti-D0 pi0 VSS; +0.5000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0 +0.5000 MyD0 pi0 VSS; +0.5000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +0.5000 MyD0 pi+ VSS; +0.5000 MyD+ pi0 VSS; +Enddecay +# +Decay MyD*- +0.5000 Myanti-D0 pi- VSS; +0.5000 MyD- pi0 VSS; +Enddecay + +# +# From M.H. Schune + S. Plaszczynski +# the nightmare ... D0 -> KPi , Kpipi0, K3pi +# J. Albert -- added K0s pi+ pi-, K0s pi+ pi- pi0 +# +Decay MyD0 +0.2000 K- pi+ PHSP; +0.2000 K- pi+ pi0 D_DALITZ; +0.2000 MyK0bar pi+ pi- D_DALITZ; +0.2000 K- K+ PHSP; +# K- 3pi (total 0.0761) +0.0933 Mya_1+ K- SVS; +0.0255 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0055 MyK_1- pi+ SVS; +0.0276 Myanti-K*0 pi+ pi- PHSP; +0.0142 K- pi+ rho0 PHSP; +0.0339 K- pi+ pi+ pi- PHSP; +Enddecay +# +CDecay Myanti-D0 +# +# +Decay MyK0bar +1.0000 MyK_S0 PHSP; +Enddecay +# +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +CDecay Mya_1- +# +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1- +0.1400 rho- MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +CDecay Myanti-K*0 +# +Decay My2ndK*0 +1.0000 MyK_S0 pi0 VSS; +Enddecay +# +CDecay My2ndanti-K*0 +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay My2ndK_1+ +0.1400 rho+ MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 My2ndanti-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# Now D+ and D- +# +Decay MyD+ +0.1666 K- pi+ pi+ D_DALITZ; +0.1666 MyK_S0 pi+ PHSP; +# K- K+ pi+ (total 0.0088) +0.0492 Myphi pi+ SVS; +0.0455 MyK*0 K+ SVS; +0.0720 K- K+ pi+ PHSP; +Enddecay +# +CDecay MyD- +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK_10 +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_10B +0.1400 rho0 MyK_S0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +# +# +End diff --git a/BaBar_2014/BpBm_DstarKstar0.dec b/BaBar_2014/BpBm_DstarKstar0.dec new file mode 100644 index 0000000..88ea5fd --- /dev/null +++ b/BaBar_2014/BpBm_DstarKstar0.dec @@ -0,0 +1,150 @@ +#################################################### +# Decay: B- -> D*- K*0bar # +# |-> brec c'tail |-> KS pi0 # +# |-> K- pi+ # +# + cc # +# # +# Created: Stephen Levy # +# August 15, 2002 # +# # +#################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- +Alias Myomega omega +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +# +# No obvious model for this decay +# make it vanilla SVV +# +Decay MyB+ +1.000 MyD*+ MyK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*- Myanti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +0.3060 MyD- pi0 VSS; +0.0110 MyD- gamma VSP_PWAVE; +Enddecay +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +0.3060 MyD+ pi0 VSS; +0.0110 MyD+ gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD+ +0.905 K- pi+ pi+ D_DALITZ; +0.095 MyKs pi+ PHSP; +Enddecay +# +Decay MyD- +0.905 K+ pi- pi- D_DALITZ; +0.095 MyKs pi- PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstarenubar_DstarmD0gamma_D0mKpi.dec b/BaBar_2014/BpBm_Dstarenubar_DstarmD0gamma_D0mKpi.dec new file mode 100644 index 0000000..28c9020 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarenubar_DstarmD0gamma_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 e- anti-nu_e # +# |-> D0 pi0 # +# |-> K- pi+ # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b e+ nu_e ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 e- anti-nu_e ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarenubar_DstarmD0gamma_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstarenubar_DstarmD0gamma_D0mKpipi0.dec new file mode 100644 index 0000000..da74166 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarenubar_DstarmD0gamma_D0mKpipi0.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 e- anti-nu_e # +# |-> D0 pi0 # +# |-> K- pi+ pi0 # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b e+ nu_e ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 e- anti-nu_e ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- pi0 PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarenubar_DstarmD0pi_D0mKpi.dec b/BaBar_2014/BpBm_Dstarenubar_DstarmD0pi_D0mKpi.dec new file mode 100644 index 0000000..58ff388 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarenubar_DstarmD0pi_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 e- anti-nu_e # +# |-> D0 pi0 # +# |-> K- pi+ # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b e+ nu_e ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 e- anti-nu_e ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarenubar_DstarmD0pi_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstarenubar_DstarmD0pi_D0mKpipi0.dec new file mode 100644 index 0000000..6914223 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarenubar_DstarmD0pi_D0mKpipi0.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 e- anti-nu_e # +# |-> D0 pi0 # +# |-> K- pi+ pi0 # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b e+ nu_e ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 e- anti-nu_e ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- pi0 PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarlnu_X.dec b/BaBar_2014/BpBm_Dstarlnu_X.dec new file mode 100644 index 0000000..7c07f52 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarlnu_X.dec @@ -0,0 +1,30 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 l- anti-nu_l # +# # +# l = e or mu # +# +CC # +# # +# amanda@slac.stanford.edu +################################################### +# +Alias MyB- B- +Alias MyB+ B+ +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB+ +0.5000 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB- +0.5000 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +End + diff --git a/BaBar_2014/BpBm_Dstarma0p.dec b/BaBar_2014/BpBm_Dstarma0p.dec new file mode 100644 index 0000000..4e3cf34 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarma0p.dec @@ -0,0 +1,144 @@ +################################################### +# # +# Decay: B+ -> D*0 - a0+, anti-B0 -> X # +# | # +# -->eta (gg) pi+ # +# # +# # +# Author: H. Snoek # +# Date: 13/jan/04 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- + +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 + +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyKs K_S0 +Alias MyK0 K0 +Alias MyK0bar anti-K0 + +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myeta eta +Alias Myomega omega +# +# Always one B0 to the signal channel +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00000 Myanti-D*0 Mya_0+ SVS; +Enddecay +# +Decay MyB- +1.00000 MyD*0 Mya_0- SVS; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 MyK0bar pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1+ K- SVS; +0.0123 MyK_1- pi+ SVS; +0.0375 Myanti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 Mya_1- K+ SVS; +0.0123 MyK_1+ pi- SVS; +0.0375 MyK*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyK0bar +1.00 MyKs PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +0.7449 K+ pi- VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +0.7449 K- pi+ VSS; +0.2551 MyKs pi0 VSS; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_0- +1.000 Myeta pi- PHSP; +Enddecay +# +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstarmunubar_DstarmD0gamma_D0mKpi.dec b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0gamma_D0mKpi.dec new file mode 100644 index 0000000..98c4485 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0gamma_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 mu- anti-nu_mu # +# |-> D0 pi0 # +# |-> K- pi+ # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b mu+ nu_mu ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 mu- anti-nu_mu ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarmunubar_DstarmD0gamma_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0gamma_D0mKpipi0.dec new file mode 100644 index 0000000..2afc85c --- /dev/null +++ b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0gamma_D0mKpipi0.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 mu- anti-nu_mu # +# |-> D0 pi0 # +# |-> K- pi+ pi0 # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b mu+ nu_mu ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 mu- anti-nu_mu ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- pi0 PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarmunubar_DstarmD0pi_D0mKpi.dec b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0pi_D0mKpi.dec new file mode 100644 index 0000000..63b0bac --- /dev/null +++ b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0pi_D0mKpi.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 mu- anti-nu_mu # +# |-> D0 pi0 # +# |-> K- pi+ # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b mu+ nu_mu ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 mu- anti-nu_mu ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarmunubar_DstarmD0pi_D0mKpipi0.dec b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0pi_D0mKpipi0.dec new file mode 100644 index 0000000..5709d03 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarmunubar_DstarmD0pi_D0mKpipi0.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 mu- anti-nu_mu # +# |-> D0 pi0 # +# |-> K- pi+ pi0 # +# + CC # +# # +# Comments: using default value for dm # +# # +# Author: Kelly E Ford # +# Created: 07/May/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD*0b anti-D*0 +Alias MyD0 D0 +Alias MyD0b anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*0b mu+ nu_mu ISGW2; +Enddecay +# +Decay MyB- +1.0000 MyD*0 mu- anti-nu_mu ISGW2; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD*0b +1.0000 MyD0b pi0 VSS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ pi0 PHSP; +Enddecay +# +Decay MyD0b +1.0000 K+ pi- pi0 PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_DstarpKs.dec b/BaBar_2014/BpBm_DstarpKs.dec new file mode 100644 index 0000000..f18e165 --- /dev/null +++ b/BaBar_2014/BpBm_DstarpKs.dec @@ -0,0 +1,324 @@ + +#################################################### +# # +# # +# # +# Decay: B+ -> D+ Ks , B- -> X +c.c. # +# # +# # +# 17 Apr 02 # +# Riccardo Faccini # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyD+ D+ +Alias MyD- D- +# +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Alias MyD*+ D*+ +Alias MyD*- D*- +# +Alias Myomega omega +# +Alias my-a_1+ a_1+ +Alias my-a_1- a_1- +# +Alias my-anti-K0 anti-K0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 +# +Alias my-K*0 K*0 +Alias my-anti-K*0 anti-K*0 +# +Alias my-K_1+ K_1+ +Alias my-K_1- K_1- +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +## +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyD*+ my-K_S0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyD*- my-K_S0 SVS; +Enddecay +# +Decay MyD*- +0.688 Myanti-D0 pi- VSS; +0.312 MyD- pi0 VSS; +Enddecay +# +Decay MyD*+ +0.688 MyD0 pi+ VSS; +0.312 MyD+ pi0 VSS; +Enddecay + +# +Decay MyD0 +0.142 K- pi+ PHSP; +0.513 K- pi+ pi0 D_DALITZ; +0.068 my-anti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277 total) +0.1270 my-a_1+ K- SVS; +0.0123 my-K_1- pi+ SVS; +0.0375 my-anti-K*0 pi+ pi- PHSP; +0.0194 K- pi+ rho0 PHSP; +0.0462 K- pi+ pi+ pi- PHSP; +0.0346 my-anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.142 K+ pi- PHSP; +0.513 K+ pi- pi0 D_DALITZ; +0.068 my-K0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.1270 my-a_1- K+ SVS; +0.0123 my-K_1+ pi- SVS; +0.0375 my-K*0 pi- pi+ PHSP; +0.0194 K+ pi- rho0 PHSP; +0.0462 K+ pi- pi- pi+ PHSP; +0.0346 my-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +# +Decay MyD+ +# +# +# Ks pi +0.0098 my-anti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# these 4 modes below are K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ and non res +#0.0127 my-anti-K*0 pi+ SVS; +#0.0230 my-anti-K_0*0 pi+ PHSP; +#0.0037 my-anti-K''*0 pi+ SVS; +#0.0850 K- pi+ pi+ PHSP; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ my-anti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 my-anti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 my-anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 my-anti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 my-a_1+ my-anti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 my-anti-K0 rho0 pi+ PHSP; +0.0027 my-anti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +# +Decay MyD- +# +# +# Ks pi +0.0098 my-K0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# these 4 modes below are K*(892)0 pi-, +# K*(1430)0 pi-, and K*(1680)0 pi- and non res +#0.0127 my-K*0 pi- SVS; +#0.0230 my-K_0*0 pi- PHSP; +#0.0037 my-K''*0 pi- SVS; +#0.0850 K+ pi- pi- PHSP; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- my-K0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 my-K0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 my-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 my-K*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 my-a_1- my-K0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 my-K0 rho0 pi- PHSP; +0.0027 my-K0 pi- pi- pi+ PHSP; +Enddecay +# +# +# +# +# Redefined modes +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay +# +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +# +Decay my2-K*0 +0.3323 my-K0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 my-anti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 my-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay my-K_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 my-anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 my-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 my-anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 my-K0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 my-anti-K0 pi- VSS; +Enddecay +# +# +Decay my-a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay + +# +# +# +End + + + diff --git a/BaBar_2014/BpBm_Dstarpilnu_KPi.dec b/BaBar_2014/BpBm_Dstarpilnu_KPi.dec new file mode 100644 index 0000000..6da3c51 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarpilnu_KPi.dec @@ -0,0 +1,56 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D*+ pi- l- anti-nu_l # +# |-> D0 pi # +# |-> K pi # +# # +# with l = e or mu # +# + CC # +# # +# Author: Rolf Dubitzky # +# Created: 15/Oct/99 # +# Mail: dubitzky@SLAC.STANFORD.EDU # +####################################################### +# + +# +Alias myB- B- +Alias myB+ B+ +Alias myD*+ D*+ +Alias myD*- D*- +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +Decay myB+ +0.5000 myD*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.5000 myD*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB- +0.5000 myD*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.5000 myD*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myD*+ +1.0000 myD0 pi+ VSS; +Enddecay +# +Decay myD*- +1.0000 myanti-D0 pi- VSS; +Enddecay +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# + +End diff --git a/BaBar_2014/BpBm_Dstarpipi_D0Kpi_nonres.dec b/BaBar_2014/BpBm_Dstarpipi_D0Kpi_nonres.dec new file mode 100644 index 0000000..564174e --- /dev/null +++ b/BaBar_2014/BpBm_Dstarpipi_D0Kpi_nonres.dec @@ -0,0 +1,50 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D*+ pi- pi- (nonresonant) # +# |-> D0 pi+ # +# |-> K- pi+ # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyD*+ pi- pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 MyD*- pi+ pi+ PHSP; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstarpipi_nonres.dec b/BaBar_2014/BpBm_Dstarpipi_nonres.dec new file mode 100644 index 0000000..ad18a29 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarpipi_nonres.dec @@ -0,0 +1,121 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D*+ pi- pi- (nonresonant) # +# |-> D0 pi+ # +# |-> K- pi+ # +# |-> K- pi+ pi0 # +# |-> K- pi+ pi+ pi- # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# +CC # +# # +# Contacts: # +# jong@slac.stanford.edu # +# December 2002 # +# # +####################################################### +# +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*- D*- +Alias Myanti-D0 anti-D0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +Alias Mya_1+ a_1+ +Alias MyK*0B anti-K*0 +Alias MyK_1- K_1- +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +# +Decay Upsilon(4S) +0.50000 B- MyB+ VSS; +0.50000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyD*+ pi- pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 MyD*- pi+ pi+ PHSP; +Enddecay +# +Decay MyD*- +1.000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +0.0129 K- pi+ pi+ pi- PHSP; +0.0540 Myanti-K0 pi+ pi- D_DALITZ; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +Enddecay +# +Decay Myanti-D0 +0.0391 K+ pi- PHSP; +0.1307 K+ pi- pi0 D_DALITZ; +0.0129 K+ pi- pi- pi+ PHSP; +0.0540 MyK0 pi- pi+ D_DALITZ; +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +Enddecay +# +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0B +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0B pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusK3pi_DstarminusK2pi_Kminus.dec b/BaBar_2014/BpBm_DstarplusK3pi_DstarminusK2pi_Kminus.dec new file mode 100644 index 0000000..55fceea --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusK3pi_DstarminusK2pi_Kminus.dec @@ -0,0 +1,205 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->K3pi # +# D*-->D-pi0 D-->kpipi # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+k3pi MyD*-k2pi K- PHSP; +Enddecay +CDecay MyB+ +# +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusK3pi_DstarminusK3pi_Kminus.dec b/BaBar_2014/BpBm_DstarplusK3pi_DstarminusK3pi_Kminus.dec new file mode 100644 index 0000000..01d9a87 --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusK3pi_DstarminusK3pi_Kminus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->K3pi # +# D*-->D0barpi- D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+k3pi MyD*-k3pi K- PHSP; +Enddecay +CDecay MyB+ +# +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusK3pi_DstarminusKpipi0_Kminus.dec b/BaBar_2014/BpBm_DstarplusK3pi_DstarminusKpipi0_Kminus.dec new file mode 100644 index 0000000..6bddb2c --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusK3pi_DstarminusKpipi0_Kminus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->K3pi # +# D*-->D0barpi- D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+k3pi MyD*-kpipi0 K- PHSP; +Enddecay +CDecay MyB+ +# +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusKpi_DstarminusK2pi_Kminus.dec b/BaBar_2014/BpBm_DstarplusKpi_DstarminusK2pi_Kminus.dec new file mode 100644 index 0000000..bee84d2 --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusKpi_DstarminusK2pi_Kminus.dec @@ -0,0 +1,205 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->Kpi # +# D*-->D-pi0 D-->kpipi # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+kpi MyD*-k2pi K- PHSP; +Enddecay +CDecay MyB+ +# +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusKpi_DstarminusK3pi_Kminus.dec b/BaBar_2014/BpBm_DstarplusKpi_DstarminusK3pi_Kminus.dec new file mode 100644 index 0000000..5f4407d --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusKpi_DstarminusK3pi_Kminus.dec @@ -0,0 +1,64 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->Kpi # +# D*-->D0barpi- D0bar->k3pi # +# Author: Jean-Pierre Lees # +# Created: 30/Nov/00 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyD0B anti-D0 +Alias Mya_1- a_1- +Alias MyK*0 K*0 +Alias MyK_1+ K_1+ +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+ MyD*- K- PHSP; +Enddecay +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0355 Mya_1- K+ SVS; +0.0097 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1+ pi- SVS; +0.0105 MyK*0 pi- pi+ PHSP; +0.0054 K+ pi- rho0 PHSP; +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusKpi_DstarminusKpi_Kminus.dec b/BaBar_2014/BpBm_DstarplusKpi_DstarminusKpi_Kminus.dec new file mode 100644 index 0000000..c3aff95 --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusKpi_DstarminusKpi_Kminus.dec @@ -0,0 +1,43 @@ +####################################################### +# B+B-_DstarminusKpi_DstarplusKpi_Kminus.dec' # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->Kpi # +# D*-->D0barpi- D0bar->kpi # +# Author: Jean-Pierre Lees # +# Created: 30/Nov/00 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+ MyD*- K- PHSP; +Enddecay +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusKpi_DstarminusKpipi0_Kminus.dec b/BaBar_2014/BpBm_DstarplusKpi_DstarminusKpipi0_Kminus.dec new file mode 100644 index 0000000..e4bf444 --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusKpi_DstarminusKpipi0_Kminus.dec @@ -0,0 +1,43 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->Kpi # +# D*-->D0barpi- D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 30/Nov/00 # +####################################################### +# + +# +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*- D*- +Alias MyD0 D0 +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+ MyD*- K- PHSP; +Enddecay +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyD0B +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusKpi_DstarplusKpi_Kminus.dec b/BaBar_2014/BpBm_DstarplusKpi_DstarplusKpi_Kminus.dec new file mode 100644 index 0000000..5fb37a4 --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusKpi_DstarplusKpi_Kminus.dec @@ -0,0 +1,196 @@ +####################################################### +# # +# Decay: B- -> D*-D*-K+ B+->X # +# D*-->D0bar pi- # +# Kpi*Kpi # +# Author: Jean-Pierre Lees # +# Created: 17/March/2000 # +# Modified:Jean-Pierre Lees 02/April/2001 VSS_BMIX dm # +# Modified:Patrick Robbe 31/May/2002 D*-D*-K+ # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.000 MyD*-kpi MyD*-kpi K+ PHSP; +Enddecay +CDecay MyB+ +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusKpipi0_DstarminusK2pi_Kminus.dec b/BaBar_2014/BpBm_DstarplusKpipi0_DstarminusK2pi_Kminus.dec new file mode 100644 index 0000000..5c7c371 --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusKpipi0_DstarminusK2pi_Kminus.dec @@ -0,0 +1,205 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->Kpipi0 # +# D*-->D-pi0 D-->kpipi # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+kpipi0 MyD*-k2pi K- PHSP; +Enddecay +CDecay MyB+ +# +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_DstarplusKpipi0_DstarminusKpipi0_Kminus.dec b/BaBar_2014/BpBm_DstarplusKpipi0_DstarminusKpipi0_Kminus.dec new file mode 100644 index 0000000..8c4301d --- /dev/null +++ b/BaBar_2014/BpBm_DstarplusKpipi0_DstarminusKpipi0_Kminus.dec @@ -0,0 +1,197 @@ +####################################################### +# # +# Decay: B- -> D*+ D*- K- # +# D*+->D0pi, D0->Kpipi0 # +# D*-->D0barpi- D0bar->kpipi0 # +# Author: Jean-Pierre Lees # +# Created: 17/Apr/00 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 MyB+ B- VSS; +Enddecay +# +Decay MyB- +# modes DDK +1.000 MyD*+kpipi0 MyD*-kpipi0 K- PHSP; +Enddecay +CDecay MyB+ +# +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstarstarlnu.dec b/BaBar_2014/BpBm_Dstarstarlnu.dec new file mode 100644 index 0000000..a3d1789 --- /dev/null +++ b/BaBar_2014/BpBm_Dstarstarlnu.dec @@ -0,0 +1,164 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D** l nu # +# # +# with D** # +# D_10 -> D*0 pi0 # +# -> D*+ pi- # +# D'_10 -> D*+ pi- # +# D_2*0 -> D*0 pi0 # +# -> D*+ pi- # +# -> D0 pi0 # +# -> D+ pi- # +# D*+ pi- # +# # +# with D*+ -> D0 pi+ # +# D*0 -> D0 pi0 # +# # +# with D0 -> K- pi+ # +# D+ -> K- pi+ pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Armin Hauke # +# Rolf Dubitzky # +# # +# Created: 11/Dec/01 # +# Mail: dubitzky@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myD_10 D_10 +Alias myD'_10 D'_10 +Alias myD_2*0 D_2*0 +Alias myanti-D_10 anti-D_10 +Alias myanti-D'_10 anti-D'_10 +Alias myanti-D_2*0 anti-D_2*0 +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +Alias myD*+ D*+ +Alias myD*- D*- +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +Alias myD+ D+ +Alias myD- D- +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB+ +0.1250 myanti-D_10 e+ nu_e PHOTOS ISGW2; +0.1250 myanti-D'_10 e+ nu_e PHOTOS ISGW2; +0.1250 myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.1250 myD*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.1250 myanti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.1250 myanti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.1250 myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.1250 myD*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB- +0.1250 myD_10 e- anti-nu_e PHOTOS ISGW2; +0.1250 myD'_10 e- anti-nu_e PHOTOS ISGW2; +0.1250 myD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.1250 myD*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.1250 myD_10 mu- anti-nu_mu PHOTOS ISGW2; +0.1250 myD'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.1250 myD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.1250 myD*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay + + + +# +# D** +# +Decay myD_10 +0.5000 myD*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 myD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay myD'_10 +1.0000 myD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay myD_2*0 +0.2500 myD*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myD0 pi0 TSS; +0.2500 myD+ pi- TSS; +Enddecay +Decay myanti-D_10 +0.5000 myanti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 myD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay myanti-D'_10 +1.0000 myD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay myanti-D_2*0 +0.2500 anti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2500 myanti-D0 pi0 TSS; +0.2500 myD- pi+ TSS; +Enddecay + + + +# +# D*+ -> D0 pi+ +# +Decay myD*+ +1.0000 myD0 pi+ VSS; +Enddecay +Decay myD*- +1.0000 myanti-D0 pi- VSS; +Enddecay +Decay myD*0 +1.0000 myD0 pi0 VSS; +Enddecay +Decay myanti-D*0 +1.0000 myanti-D0 pi0 VSS; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +Decay myD+ +# the Dalitz mode below includes K*bar(892)0 pi+, K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +Decay myD- +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +1.0 K+ pi- pi- D_DALITZ; +Enddecay + + + +End diff --git a/BaBar_2014/BpBm_Dstr0lnu_D0Kpi.dec b/BaBar_2014/BpBm_Dstr0lnu_D0Kpi.dec new file mode 100644 index 0000000..452ed94 --- /dev/null +++ b/BaBar_2014/BpBm_Dstr0lnu_D0Kpi.dec @@ -0,0 +1,59 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 l- anti-nu_l # +# |-> D0 pi0 # +# D0 gamma # +# |-> K- pi+ # +# # +# l = e or mu # +# +CC # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Mail: METZLER@SLAC.STANFORD.EDU # +# Modified by Rowan Hamilton # +################################################### +# +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB+ +0.5000 MyD*0B e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0B mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB- +0.5000 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Dstr0lnu_D0pi0_Kpi.dec b/BaBar_2014/BpBm_Dstr0lnu_D0pi0_Kpi.dec new file mode 100644 index 0000000..09cceb1 --- /dev/null +++ b/BaBar_2014/BpBm_Dstr0lnu_D0pi0_Kpi.dec @@ -0,0 +1,58 @@ +#################################################### +# # +# Decay: B+ -> X B- ->D*0 l- anti-nu_l # +# |-> D0 pi0 # +# |-> K- pi+ # +# # +# l = e or mu # +# +CC # +# Received by J.Richman from Edinburg group # +# (Ali Anjomshoaa) # +# Mail: RICHMAN@SLAC.STANFORD.EDU # +# Grabbed from M.H. Schune + S. Plaszczynski's file# +# Created: 01/11/99 # +#################################################### +# +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB+ +0.5000 MyD*0B e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0B mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB- +0.5000 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay MyD*0B +1.0000 MyD0B pi0 VSS; +Enddecay +# +# +# D0-> KPi +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay MyD0B +1.0000 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Dstr0lnu_Kpi.dec b/BaBar_2014/BpBm_Dstr0lnu_Kpi.dec new file mode 100644 index 0000000..452ed94 --- /dev/null +++ b/BaBar_2014/BpBm_Dstr0lnu_Kpi.dec @@ -0,0 +1,59 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 l- anti-nu_l # +# |-> D0 pi0 # +# D0 gamma # +# |-> K- pi+ # +# # +# l = e or mu # +# +CC # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Mail: METZLER@SLAC.STANFORD.EDU # +# Modified by Rowan Hamilton # +################################################### +# +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB+ +0.5000 MyD*0B e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0B mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB- +0.5000 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +Decay MyD0B +0.0391 K+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Dstr0lnu_Kpipi.dec b/BaBar_2014/BpBm_Dstr0lnu_Kpipi.dec new file mode 100644 index 0000000..e3bb894 --- /dev/null +++ b/BaBar_2014/BpBm_Dstr0lnu_Kpipi.dec @@ -0,0 +1,59 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 l- anti-nu_l # +# |-> D0 pi0 # +# D0 gamma # +# |-> K- pi+ pi0 # +# # +# l = e or mu # +# +CC # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Mail: METZLER@SLAC.STANFORD.EDU # +# Modified by Rowan Hamilton # +################################################### +# +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB+ +0.5000 MyD*0B e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0B mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB- +0.5000 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +# +Decay MyD0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +Decay MyD0B +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Dstr0lnu_Kpipipi.dec b/BaBar_2014/BpBm_Dstr0lnu_Kpipipi.dec new file mode 100644 index 0000000..30b00ca --- /dev/null +++ b/BaBar_2014/BpBm_Dstr0lnu_Kpipipi.dec @@ -0,0 +1,59 @@ +################################################### +# # +# Decay: B+ -> X B- ->D*0 l- anti-nu_l # +# |-> D0 pi0 # +# D0 gamma # +# |-> K- pi+ pi+ pi- # +# # +# l = e or mu # +# +CC # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Created: 09/Feb/99 # +# Mail: METZLER@SLAC.STANFORD.EDU # +# Modified by Rowan Hamilton # +################################################### +# +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +# +Decay MyB+ +0.5000 MyD*0B e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0B mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB- +0.5000 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +# +Decay MyD0 +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +Decay MyD0B +0.0129 K+ pi- pi- pi+ PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Dstr0lnu_Kspipi.dec b/BaBar_2014/BpBm_Dstr0lnu_Kspipi.dec new file mode 100644 index 0000000..0d9dce9 --- /dev/null +++ b/BaBar_2014/BpBm_Dstr0lnu_Kspipi.dec @@ -0,0 +1,63 @@ +###################################################### +# # +# Decay: B+ -> X B- ->D*0 l- anti-nu_l # +# |-> D0 pi0 # +# D0 gamma # +# |-> Ks pi+ pi- # +# # +# l = e or mu # +# +CC # +# # +# Authors: Mousumi Datta and Steve Sekula # +# Created: 30 January 2002 # +# Mail: dattam@slac.stanford.edu # +# sekula@slac.stanford.edu # +###################################################### + + +Alias MyB- B- +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyB+ B+ +Alias MyD*0B anti-D*0 +Alias MyD0B anti-D0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +0.5000 MyD*0B e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0B mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyB- +0.5000 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.5000 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +Enddecay +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay MyD*0B +0.6190 MyD0B pi0 VSS; +0.3810 MyD0B gamma VSP_PWAVE; +Enddecay +# +Decay MyD0 +1.0000 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyD0B +1.0000 MyKs pi+ pi- PHSP; +Enddecay +# +Decay MyKs +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Dstr0pi0lnu_D0Kpi.dec b/BaBar_2014/BpBm_Dstr0pi0lnu_D0Kpi.dec new file mode 100644 index 0000000..bd467ff --- /dev/null +++ b/BaBar_2014/BpBm_Dstr0pi0lnu_D0Kpi.dec @@ -0,0 +1,83 @@ +####################################################### +# # +# Decay: B+ -> X B- -> D*0 pi0 l nu # +# |-> D0 pi0/gamma # +# |-> K- pi+ # +# # +# with l = e or mu # +# # +# # +# + CC # +# # +# # +# Author: Jens Schubert # +# Created: 18/May/2004 # +# Mail: jschubi@SLAC.STANFORD.EDU # +####################################################### +# +# +Alias myB- B- +Alias myB+ B+ +# +Alias myanti-D*0 anti-D*0 +Alias myD*0 D*0 +# +Alias myanti-D0 anti-D0 +Alias myD0 D0 +# + + +# +# Y +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# + + +# +# B +# +Decay myB- +0.5000 myD*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.5000 myD*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay myB+ +0.5000 myanti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.5000 myanti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay + + + +# +# D* -> D0 pi0/gamma +# + +Decay myD*0 +0.6190 myD0 pi0 VSS; +0.3810 myD0 gamma VSP_PWAVE; +Enddecay +Decay myanti-D*0 +0.6190 myanti-D0 pi0 VSS; +0.3810 myanti-D0 gamma VSP_PWAVE; +Enddecay + + + +# +# D Meson +# +Decay myD0 +1.0000 K- pi+ PHSP; +Enddecay +Decay myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + + + + +End diff --git a/BaBar_2014/BpBm_HHHHH.dec b/BaBar_2014/BpBm_HHHHH.dec new file mode 100644 index 0000000..07e59a1 --- /dev/null +++ b/BaBar_2014/BpBm_HHHHH.dec @@ -0,0 +1,55 @@ +################################################### +# # +# Decay: B+ -> h+ h+ h- h+ h- # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 pi+ pi- pi+ pi- pi+ PHSP; +1.0000 K+ pi- pi+ pi- pi+ PHSP; +1.0000 pi+ K- pi+ pi- pi+ PHSP; + +1.0000 K+ K- pi+ pi- pi+ PHSP; +1.0000 K+ pi- K+ pi- pi+ PHSP; +1.0000 pi+ K- pi+ K- pi+ PHSP; + +#1.0000 pi+ K- K+ K- pi+ PHSP; +#1.0000 K+ K- K+ pi- pi+ PHSP; +#1.0000 K+ pi- K+ pi- K+ PHSP; +#1.0000 K+ K- K+ K- pi+ PHSP; +#1.0000 K+ K- K+ pi- K+ PHSP; +#1.0000 K+ K- K+ K- K+ PHSP; +Enddecay + +Decay MyB- +1.0000 pi- pi- pi+ pi- pi+ PHSP; +1.0000 K- pi- pi+ pi- pi+ PHSP; +1.0000 pi- K+ pi- pi- pi+ PHSP; + +1.0000 K+ K- pi- pi- pi+ PHSP; +1.0000 K+ pi- K+ pi- pi- PHSP; +1.0000 pi+ K- pi+ K- pi- PHSP; + +#1.0000 pi- K- K+ K- pi+ PHSP; +#1.0000 K+ K- K+ pi- pi- PHSP; +#1.0000 K- pi+ K- pi+ K- PHSP; +#1.0000 K+ K- K+ K- pi- PHSP; +#1.0000 K+ K- pi+ K- K- PHSP; +#1.0000 K+ K- K+ K- K- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_HHHPP.dec b/BaBar_2014/BpBm_HHHPP.dec new file mode 100644 index 0000000..2af22d6 --- /dev/null +++ b/BaBar_2014/BpBm_HHHPP.dec @@ -0,0 +1,43 @@ +################################################### +# # +# Decay: B+ -> h+ h+ h- pi0 pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 pi+ pi- pi+ pi0 pi0 PHSP; +1.0000 K+ pi- pi+ pi0 pi0 PHSP; +1.0000 pi+ K- pi+ pi0 pi0 PHSP; + +1.0000 K+ pi- K+ pi0 pi0 PHSP; +1.0000 K+ K- pi+ pi0 pi0 PHSP; + +#1.0000 K+ K- K+ pi0 pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 pi+ pi- pi- pi0 pi0 PHSP; +1.0000 K+ pi- pi- pi0 pi0 PHSP; +1.0000 pi+ K- pi- pi0 pi0 PHSP; + +1.0000 K+ pi- K- pi0 pi0 PHSP; +1.0000 K- K- pi+ pi0 pi0 PHSP; + +#1.0000 K+ K- K- pi0 pi0 PHSP; +Enddecay + + +End diff --git a/BaBar_2014/BpBm_JPsiK_AllJpsi.dec b/BaBar_2014/BpBm_JPsiK_AllJpsi.dec new file mode 100644 index 0000000..c20788a --- /dev/null +++ b/BaBar_2014/BpBm_JPsiK_AllJpsi.dec @@ -0,0 +1,34 @@ +############################################################ +# # +# Decay: B- -> J/psi K-, B+ -> X # +# |-> X # +# # +# # +# + cc # +# # +# Author: E. Varnes # +# Created: 14/Aug/01 # +# Mail: VARNES@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 J/psi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 J/psi K- SVS; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_JpsiD.dec b/BaBar_2014/BpBm_JpsiD.dec new file mode 100644 index 0000000..5f02c79 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiD.dec @@ -0,0 +1,37 @@ +############################################################ +# # +# Decay: B- -> J/psi D-, B+ -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 27 Nov 02 # +############################################################ +# +# +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi D+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi D- SVS; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiD_Kpi.dec b/BaBar_2014/BpBm_JpsiD_Kpi.dec new file mode 100644 index 0000000..9eab188 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiD_Kpi.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Decay: B- -> J/psi D-, B+ -> X # +# |-> e+e- | # +# |-> mu+mu- |-> K_S0 pi- # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 27 Nov 02 # +############################################################ +# +# +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD+ D+ +Alias MyD- D- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi MyD+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi MyD- SVS; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyD- +1.0000 MyK_S0 pi- PHSP; +Enddecay +# +Decay MyD+ +1.0000 MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_JpsiDpi.dec b/BaBar_2014/BpBm_JpsiDpi.dec new file mode 100644 index 0000000..3a3cb54 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiDpi.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B- -> J/psi D pi, B+ -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: 27 Nov 02 # +############################################################ +# +# +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.5000 MyJ/psi D+ pi0 PHSP; +0.5000 MyJ/psi anti-D0 pi+ PHSP; +Enddecay +# +Decay MyB- +0.5000 MyJ/psi D- pi0 PHSP; +0.5000 MyJ/psi D0 pi- PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiDstar.dec b/BaBar_2014/BpBm_JpsiDstar.dec new file mode 100644 index 0000000..754dfe1 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiDstar.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B- -> J/psi D*-, B+ -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: D. Bernard # +# The D* is badly treated, as a sheer scalar # +# Created: 27 Nov 02 # +############################################################ +# +# +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi D*+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi D*- PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_l.dec b/BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_l.dec new file mode 100644 index 0000000..c013e4f --- /dev/null +++ b/BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_l.dec @@ -0,0 +1,63 @@ +################################################################### +# B- --> J/psi D*- B+ --> Generic # +# | | # +# | |-->D0bar pi- # +# | | # +# | |-->K+ pi- # +# | # +# |-->e+e-/mu+mu- # +# # +# + c. c. # +# # +# Using Longitudinal Helicity Amp # +# # +# Author: E. Robutti (adapted from V. Halyo) # +################################################################### +# +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyDstar- D*- +Alias MyDstar+ D*+ +Alias MyD0 D0 +Alias MyAnti-D0 anti-D0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyDstar- SVV_HELAMP 0. 0. 1. 0. 0. 0.; +Enddecay +# +Decay MyDstar- +1.000 MyAnti-D0 pi- VSS; +Enddecay +# +Decay MyAnti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyDstar+ SVV_HELAMP 0. 0. 1. 0. 0. 0.; +Enddecay +# +Decay MyDstar+ +1.000 D0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_t.dec b/BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_t.dec new file mode 100644 index 0000000..275907b --- /dev/null +++ b/BaBar_2014/BpBm_JpsiDstar_D0pi_Kpi_t.dec @@ -0,0 +1,63 @@ +################################################################### +# B- --> J/psi D*- B+ --> Generic # +# | | # +# | |-->D0bar pi- # +# | | # +# | |-->K+ pi- # +# | # +# |-->e+e-/mu+mu- # +# # +# + c. c. # +# # +# Using Transverse Helicity Amp # +# # +# Author: E. Robutti (adapted from V. Halyo) # +################################################################### +# +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyDstar- D*- +Alias MyDstar+ D*+ +Alias MyD0 D0 +Alias MyAnti-D0 anti-D0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyDstar- SVV_HELAMP 1. 0. 0. 0. 1. 0.; +Enddecay +# +Decay MyDstar- +1.000 MyAnti-D0 pi- VSS; +Enddecay +# +Decay MyAnti-D0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyDstar+ SVV_HELAMP 1. 0. 0. 0. 1. 0.; +Enddecay +# +Decay MyDstar+ +1.000 D0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiDstar_l.dec b/BaBar_2014/BpBm_JpsiDstar_l.dec new file mode 100644 index 0000000..9814cbc --- /dev/null +++ b/BaBar_2014/BpBm_JpsiDstar_l.dec @@ -0,0 +1,50 @@ +################################################################### +# B- --> J/psi D*- B0 --> Generic # +# | | # +# | |-->D0bar pi- # +# | # +# | # +# |-->e+e-/mu+mu- # +# # +# Using Longitudinal Helicity Amp # +# # +# Author: Valerie Halyo # +################################################################### +# +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyDstar- D*- +Alias MyDstar+ D*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyDstar- SVV_HELAMP 0. 0. 1. 0. 0. 0.; +Enddecay +# +Decay MyDstar- +1.000 anti-D0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyDstar+ SVV_HELAMP 0. 0. 1. 0. 0. 0.; +Enddecay +# +Decay MyDstar+ +1.000 D0 pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiDstar_t.dec b/BaBar_2014/BpBm_JpsiDstar_t.dec new file mode 100644 index 0000000..2ce6715 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiDstar_t.dec @@ -0,0 +1,50 @@ +################################################################### +# B- --> J/psi D*- B0 --> Generic # +# | | # +# | |-->D0bar pi- # +# | # +# | # +# |-->e+e-/mu+mu- # +# # +# Using Transverse Helicisy Amp # +# # +# Author : Valerie Halyo # +################################################################### +# +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyDstar- D*- +Alias MyDstar+ D*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyDstar- SVV_HELAMP 1. 0. 0. 0. 1. 0.; +Enddecay +# +Decay MyDstar- +1.000 anti-D0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyDstar+ SVV_HELAMP 1. 0. 0. 0. 1. 0.; +Enddecay +# +Decay MyDstar+ +1.000 D0 pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiEtaKm.dec b/BaBar_2014/BpBm_JpsiEtaKm.dec new file mode 100644 index 0000000..3d88212 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiEtaKm.dec @@ -0,0 +1,45 @@ +################################################################### +# B+ -> J/psi Eta K+, B- -> X (50%); + C.C. (50%) +# | | +# | -> Gamma Gamma (50%), Pi+ Pi- Pi0 (50%) +# | +# -> e+e- (50%), mu+mu- (50%) +# +# Eric Eckhart +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta eta +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# + +Decay MyB- +1.000 MyJpsi MyEta K- PHSP; +Enddecay +# + +Decay MyB+ +1.000 MyJpsi MyEta K+ PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/BpBm_JpsiEtaPKm.dec b/BaBar_2014/BpBm_JpsiEtaPKm.dec new file mode 100644 index 0000000..4328540 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiEtaPKm.dec @@ -0,0 +1,53 @@ +################################################################### +# B+ -> J/psi Eta' K+, B- -> X (50%) + C.C. (50%) +# | | +# | -> Rho0 Gamma (50%), Eta Pi+ Pi- (50%) +# | | +# | -> Gamma Gamma +# | +# -> e+e- (50%), mu+mu- (50%) +# +# Eric Eckhart +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEtaP eta' +Alias MyEta eta +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyEtaP +0.5000 pi+ pi- MyEta PHSP; +0.5000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyEta +0.5000 gamma gamma PHSP; +0.5000 pi- pi+ pi0 ETA_DALITZ; +Enddecay +# + +Decay MyB- +1.000 MyJpsi MyEtaP K- PHSP; +Enddecay +# + +Decay MyB+ +1.000 MyJpsi MyEtaP K+ PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/BpBm_JpsiK.dec b/BaBar_2014/BpBm_JpsiK.dec new file mode 100644 index 0000000..ec79c76 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiK.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B- -> J/psi K-, B+ -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: G. London # +# Mail: GLONDON@SLAC.STANFORD.EDU # +# Created: 29 Jan 99 # +############################################################ +# +# +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi K- SVS; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiK_ppbar.dec b/BaBar_2014/BpBm_JpsiK_ppbar.dec new file mode 100644 index 0000000..47a8833 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiK_ppbar.dec @@ -0,0 +1,37 @@ +############################################################ +# # +# Decay: B- -> J/psi K-, B+ -> X # +# | # +# `-> ppbar # +# # +# + cc # +# # +# Author: Dieter Best # +# Mail: best@slac.stanford.edu # +# Created: 17.July.2002 # +############################################################ +# +# +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi K- SVS; +Enddecay +# +Decay MyJ/psi +1.000 p+ anti-p- VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar.dec b/BaBar_2014/BpBm_JpsiKstar.dec new file mode 100644 index 0000000..1d12111 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar.dec @@ -0,0 +1,71 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->KS pi- (2/3) # +# | |-->K- pi0 (1/3) # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: G. London 9Feb99 # +# Mail: GLONDON@SLAC.STANFORD.EDU # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar- +0.333 K_S0 pi- VSS; +0.333 K- pi0 VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +0.333 K_S0 pi+ VSS; +0.333 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_KLpi.dec b/BaBar_2014/BpBm_JpsiKstar_KLpi.dec new file mode 100644 index 0000000..b69ddeb --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_KLpi.dec @@ -0,0 +1,62 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->KL pi- # +# | # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: G. London 9Feb99 # +# modified: D. Wright 2-12-99 +# Mail: WRIGHT@SLAC.STANFORD.EDU +################################################################### +# +#Define the transversity amplitudes +#supposed to be CLEO measurement +Define A+ 0.566 +Define A0 1.02 +Define A- 0.4 +# +Define phA+ 0.0 +Define phA0 0.0 +Define phA- 0.0 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP A+ phA+ A0 phA0 A- phA-; +Enddecay +# +Decay MyKstar- +1.000 K_L0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP A+ phA+ A0 phA0 A- phA-; +Enddecay +# +Decay MyKstar+ +1.000 K_L0 pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_KLpi_RunIPol.dec b/BaBar_2014/BpBm_JpsiKstar_KLpi_RunIPol.dec new file mode 100644 index 0000000..f7c0b4f --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_KLpi_RunIPol.dec @@ -0,0 +1,65 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->KL pi- # +# | # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: G. London 9Feb99 # +# modified: D. Wright 2-12-99 +# Mail: WRIGHT@SLAC.STANFORD.EDU +################################################################### +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar- +1.000 K_L0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 K_L0 pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_KS.dec b/BaBar_2014/BpBm_JpsiKstar_KS.dec new file mode 100644 index 0000000..195a1ef --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_KS.dec @@ -0,0 +1,74 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->KS pi- # +# | |--> pi+pi- # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# B decay should be according to CLEO # +# # +# Author: G. London 9Feb99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_KS00.dec b/BaBar_2014/BpBm_JpsiKstar_KS00.dec new file mode 100644 index 0000000..72b8894 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_KS00.dec @@ -0,0 +1,74 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->KS pi- # +# | |--> pi0pi0 # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# B decay should be according to CLEO # +# # +# Author: R. Faccini 25 feb 00 # +# Mail: RFACCINI@SLAC.STANFORD.EDU +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_KS_RunIPol.dec b/BaBar_2014/BpBm_JpsiKstar_KS_RunIPol.dec new file mode 100644 index 0000000..da7c2d5 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_KS_RunIPol.dec @@ -0,0 +1,71 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->KS pi- # +# | |--> pi+pi- # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# B decay should be according to CLEO # +# # +# Author: G. London 9Feb99 # +# Mail: GLONDON@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_Km.dec b/BaBar_2014/BpBm_JpsiKstar_Km.dec new file mode 100644 index 0000000..a072ef7 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_Km.dec @@ -0,0 +1,68 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->K- pi0 # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# B decay should be according to CLEO # +# # +# Author: G. London 9Feb99 # +# Mail: GLONDON@SLAC.STANFORD.EDU # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_Km_RunIPol.dec b/BaBar_2014/BpBm_JpsiKstar_Km_RunIPol.dec new file mode 100644 index 0000000..502bc30 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_Km_RunIPol.dec @@ -0,0 +1,65 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->K- pi0 # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# B decay should be according to CLEO # +# # +# Author: G. London 9Feb99 # +# Mail: GLONDON@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_KpPi0_RunIpIIPol.dec b/BaBar_2014/BpBm_JpsiKstar_KpPi0_RunIpIIPol.dec new file mode 100644 index 0000000..7744e99 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_KpPi0_RunIpIIPol.dec @@ -0,0 +1,63 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->K- pi0 # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# author : Marc Verderi 06/05/2004 # +# made from original decay file: # +# B+B-_JpsiKstar_K-_RunIPol.dec # +################################################################### +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_KsPip_RunIpIIPol.dec b/BaBar_2014/BpBm_JpsiKstar_KsPip_RunIpIIPol.dec new file mode 100644 index 0000000..6e34b64 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_KsPip_RunIpIIPol.dec @@ -0,0 +1,69 @@ +################################################################### +# B- --> J/psi K*- B0 --> Generic # +# | | # +# | |-->KS pi- # +# | |--> pi+pi- # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# author : Marc Verderi 06/05/2004 # +# made from original decay file: # +# B+B-_JpsiKstar_KS_RunIPol.dec # +################################################################### +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiKstar_ppbar.dec b/BaBar_2014/BpBm_JpsiKstar_ppbar.dec new file mode 100644 index 0000000..d6b0547 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiKstar_ppbar.dec @@ -0,0 +1,76 @@ +################################################################### +# B- --> J/psi K*- B- --> Generic # +# | | # +# | |-->KS pi- # +# | |--> pi+pi- # +# | # +# |-->p+p- # +# # +# + cc # +# # +# B decay should be according to CLEO # +# # +# Author: G. London 9Feb99 # +# updated to Jpsi->ppbar by thrynova@slac.stanford.edu # +# 12 Dec 2003 # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyJpsi +1.000 p+ anti-p- VLL; +Enddecay +# +Decay MyKstar- +0.5 MyK_S0 pi- VSS; +0.5 K- pi0 VSS; +Enddecay +# +Decay MyKstar+ +0.5 MyK_S0 pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiPhiKm.dec b/BaBar_2014/BpBm_JpsiPhiKm.dec new file mode 100644 index 0000000..f9e89c2 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiPhiKm.dec @@ -0,0 +1,40 @@ +################################################################### +# B+ -> J/psi Phi K+ +# +# Jinlong Zhang +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# + +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay + +Decay MyB- +1.000 MyJpsi MyPhi K- PHSP; +Enddecay +# + +Decay MyB+ +1.000 MyJpsi MyPhi K+ PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/BpBm_JpsiPi.dec b/BaBar_2014/BpBm_JpsiPi.dec new file mode 100644 index 0000000..92cdb33 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiPi.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B- -> J/psi pi-, B+ -> X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: R.Faccini # +# Created: 03 May 00 # +# Mail: RFACCINI@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi pi- SVS; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsiPiPi0_nonres.dec b/BaBar_2014/BpBm_JpsiPiPi0_nonres.dec new file mode 100644 index 0000000..1ebaab0 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiPiPi0_nonres.dec @@ -0,0 +1,75 @@ +################################################################### +# B+ --> J/psi pi0 pi+ (n.r) B- --> Generic # +# | # +# | # +# | # +# |-->e+e-/mu+mu- # +# # +# # +# # +# + cc # +# # +# Author: Jamie Boyd 10 April 2001 # +################################################################### +# + +# Non resonant mode (for comparison with the rho+ mode) + +# +# Alias particles for specific decays +Alias MyB+ B+ +Alias MyB- B- +Alias MyPiPlus pi+ +Alias MyPiMinus pi- +Alias MyPiZero pi0 +Alias MyJpsi J/psi + +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +# +Decay MyB+ +1.000 MyJpsi MyPiPlus MyPiZero PHSP; +Enddecay +# + +# +Decay MyB- +1.000 MyJpsi MyPiMinus MyPiZero PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_JpsiRho.dec b/BaBar_2014/BpBm_JpsiRho.dec new file mode 100644 index 0000000..bbfdaa5 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiRho.dec @@ -0,0 +1,99 @@ +################################################################### +# B+ --> J/psi rho+ B- --> Generic # +# | | # +# | |-->pi+ pi0 # +# | # +# |-->e+e-/mu+mu- # +# # +# helicity amplitudes all set as 1 # +# # +# + cc # +# # +# Author: Jamie Boyd 11 Sep 2000 # +################################################################### +# +# +#Define dm 0.464e12 + +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 + +# put all the amplitudes in the same for now ?? +# not sure what they should be yet. +Define Hplus 0.577 +Define Hzero 0.577 +Define Hminus 0.577 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +Alias MyB+ B+ +Alias MyB- B- +Alias MyRho+ rho+ +Alias MyRho- rho- +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyRho+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyRho- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyRho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.000 pi- pi0 VSS; +Enddecay +# +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_JpsiRho_0polarisation.dec b/BaBar_2014/BpBm_JpsiRho_0polarisation.dec new file mode 100644 index 0000000..bbfdaa5 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiRho_0polarisation.dec @@ -0,0 +1,99 @@ +################################################################### +# B+ --> J/psi rho+ B- --> Generic # +# | | # +# | |-->pi+ pi0 # +# | # +# |-->e+e-/mu+mu- # +# # +# helicity amplitudes all set as 1 # +# # +# + cc # +# # +# Author: Jamie Boyd 11 Sep 2000 # +################################################################### +# +# +#Define dm 0.464e12 + +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 + +# put all the amplitudes in the same for now ?? +# not sure what they should be yet. +Define Hplus 0.577 +Define Hzero 0.577 +Define Hminus 0.577 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +Alias MyB+ B+ +Alias MyB- B- +Alias MyRho+ rho+ +Alias MyRho- rho- +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyRho+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyRho- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyRho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.000 pi- pi0 VSS; +Enddecay +# +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_JpsiRho_Kstarpolarisation.dec b/BaBar_2014/BpBm_JpsiRho_Kstarpolarisation.dec new file mode 100644 index 0000000..13b5c69 --- /dev/null +++ b/BaBar_2014/BpBm_JpsiRho_Kstarpolarisation.dec @@ -0,0 +1,100 @@ +################################################################### +# B+ --> J/psi rho+ B- --> Generic # +# | | # +# | |-->pi+ pi0 # +# | # +# |-->e+e-/mu+mu- # +# # +# helicity amplitudes set to K* ones # +# # +# + cc # +# # +# Author: Jamie Boyd 11 Sep 2000 # +################################################################### +# +# +#Define dm 0.464e12 + +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz & al. To +# be consistent with cleo measurements all phases should be == 0 + +# put all the amplitudes in the same for now ?? +# not sure what they should be yet. +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 + +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# Alias particles for specific decays +Alias MyB+ B+ +Alias MyB- B- +Alias MyRho+ rho+ +Alias MyRho- rho- +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyRho+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyRho- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyRho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.000 pi- pi0 VSS; +Enddecay +# +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_Jpsi_KstHR_lplmKppippim.dec b/BaBar_2014/BpBm_Jpsi_KstHR_lplmKppippim.dec new file mode 100644 index 0000000..20393a0 --- /dev/null +++ b/BaBar_2014/BpBm_Jpsi_KstHR_lplmKppippim.dec @@ -0,0 +1,155 @@ +################################################################### +# B+ --> J/psi Kst HR B- --> Generic # +# | | # +# | |-->K+ rho0 or Kst(892) pi+ # +# | | | # +# | |-----------|---> pi+ pi- # +# | # +# |-->e+e-/mu+mu- # +# # +# + cc # +# # +# where Kst HR is one of the following: # +# K1(1270), K1(1400), K2(1430), K1(1270), K*(1410), K*(1680) # +# ...all with K+ pi+ pi- in the final state, with intermediate # +# resonances rho0 or Kst0(892). # +# # +# ofte@fi.uib.no # +# kjetil@SLAC.stanford.edu # +################################################################### +# +# +# Alias particles for specific decays +Alias MyB+ B+ +Alias MyB- B- +# +Alias MyJpsi J/psi +# +# K*0(892) +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +# K1(1270) +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +# +# K1(1400) +Alias MyK'_1+ K'_1+ +Alias MyK'_1- K'_1- +# +# K2(1430) +Alias MyK_2*+ K_2*+ +Alias MyK_2*- K_2*- +# +# K*(1410) +Alias MyK'*+ K'*+ +Alias MyK'*- K'*- +# +# K*(1680) +Alias MyK''*+ K''*+ +Alias MyK''*- K''*- +# +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0 MyJpsi MyK_1+ PHSP; +1.0 MyJpsi MyK'_1+ PHSP; +1.0 MyJpsi MyK_2*+ PHSP; +1.0 MyJpsi MyK'*+ PHSP; +1.0 MyJpsi MyK''*+ PHSP; +Enddecay +# +Decay MyB- +1.0 MyJpsi MyK_1- PHSP; +1.0 MyJpsi MyK'_1- PHSP; +1.0 MyJpsi MyK_2*- PHSP; +1.0 MyJpsi MyK'*- PHSP; +1.0 MyJpsi MyK''*- PHSP; +Enddecay +# +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +# +Decay MyK*0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ VSS; +Enddecay +# +# +# K1(1270) +Decay MyK_1+ +0.500 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1- +0.500 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +# K1(1400) +Decay MyK'_1+ +0.500 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK'_1- +0.500 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +# K2(1430) +Decay MyK_2*+ +0.500 rho0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 MyK*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_2*- +0.500 rho0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 Myanti-K*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +# +# K*(1410) +Decay MyK'*+ +0.500 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK'*- +0.500 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +# K*(1680) +Decay MyK''*+ +0.500 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK''*- +0.500 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.500 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/BpBm_Jpsim3pimnoint_Kp.dec b/BaBar_2014/BpBm_Jpsim3pimnoint_Kp.dec new file mode 100644 index 0000000..6a58669 --- /dev/null +++ b/BaBar_2014/BpBm_Jpsim3pimnoint_Kp.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: B+ -> Jpsi K+, B- -> X # +# | # +# -> pi+pi-pi0 # +# # +# + cc # +# # +# Jpsi decay to final state pi+pi-pi0 according to # +# PDG2000. Caution: NO INTERFERENCE between rho pi final # +# states are implemented! # +# # +# Author: Thomas Schietinger # +# Joanthon Coleman changed to phsp model # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/17 # +############################################################ + +Alias MyJ/psi J/psi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi K- SVS; +Enddecay +# +Decay MyJ/psi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Jpsim5pimnoint_Kp.dec b/BaBar_2014/BpBm_Jpsim5pimnoint_Kp.dec new file mode 100644 index 0000000..3a8dbf8 --- /dev/null +++ b/BaBar_2014/BpBm_Jpsim5pimnoint_Kp.dec @@ -0,0 +1,92 @@ +############################################################ +# # +# Decay: B+ -> Jpsi K+, B- -> X # +# | # +# -> pi+pi-pi+pi-pi0 # +# # +# + cc # +# # +# Jpsi decay to final state pi+pi-pi+pi-pi0 according to # +# PDG2000. Caution: NO INTERFERENCES between the various # +# resonances are implemented! # +# # +# Author: Thomas Schietinger # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/17 # +# # +############################################################ + +Alias MyJ/psi J/psi +Alias Mya_20 a_20 +Alias Mya_2+ a_2+ +Alias Mya_2- a_2- +Alias Myb_10 b_10 +Alias Myb_1+ b_1+ +Alias Myb_1- b_1- +Alias Myf_2 f_2 +Alias Myomega omega +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi K- SVS; +Enddecay +# +Decay MyJ/psi +0.0755 Mya_20 rho0 PHSP; +0.0756 Mya_2+ rho- PHSP; +0.0756 Mya_2- rho+ PHSP; +0.0607 Myb_10 rho0 PHSP; +0.0790 Myb_1+ rho- PHSP; +0.0790 Myb_1- rho+ PHSP; +0.0641 Myomega Myf_2 PHSP; +0.1258 Myomega pi+ pi- PHSP; +0.3647 pi+ pi- pi+ pi- pi0 PHSP; +Enddecay +# +Decay Mya_20 +0.500 rho+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 rho- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_2+ +0.500 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 rho+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_2- +0.500 rho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.500 rho- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay Myb_10 +1.0 Myomega pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myb_1+ +1.0 Myomega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myb_1- +1.0 Myomega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myf_2 +1.0 pi+ pi- TSS; +Enddecay +# +Decay Myomega +1.0 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Jpsim7pimnoint_Kp.dec b/BaBar_2014/BpBm_Jpsim7pimnoint_Kp.dec new file mode 100644 index 0000000..a3c9205 --- /dev/null +++ b/BaBar_2014/BpBm_Jpsim7pimnoint_Kp.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B+ -> Jpsi K+, B- -> X # +# | # +# -> pi+pi-pi+pi-pi+pi-pi0 # +# # +# + cc # +# # +# Jpsi decay to final state pi+pi-pi+pi-pi0 according to # +# PDG2000. Caution: NO INTERFERENCES between the various # +# resonances are implemented! # +# # +# Author: Thomas Schietinger # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/17 # +############################################################ + +Alias MyJ/psi J/psi +Alias Myomega omega +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyJ/psi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyJ/psi K- SVS; +Enddecay +# +Decay MyJ/psi +0.260 Myomega pi+ pi- pi+ pi- PHSP; +0.740 pi+ pi- pi+ pi- pi+ pi- pi0 PHSP; +Enddecay +# +Decay Myomega +1.0 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_JpsipBaryon.dec b/BaBar_2014/BpBm_JpsipBaryon.dec new file mode 100644 index 0000000..d00f469 --- /dev/null +++ b/BaBar_2014/BpBm_JpsipBaryon.dec @@ -0,0 +1,51 @@ +################################################### +# # +# B- -> J/psi anti-p- baryon # +# | # +# ->l+l- # +# # +# Contact: Christopher Hearty # +# hearty@triumf.ca # +# Created June 13, 2002 # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +Alias MySigma0 Sigma0 +Alias Myanti-Sigma0 anti-Sigma0 +# +ChargeConj MyLambda0 Myanti-Lambda0 +ChargeConj MySigma0 Myanti-Sigma0 +ChargeConj MyB+ MyB- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB- +0.50 MyJ/psi anti-p- MyLambda0 PHSP; +0.50 MyJ/psi anti-p- MySigma0 PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +Decay MySigma0 +1.00 MyLambda0 gamma PHSP; +Enddecay +# +CDecay MyB+ +CDecay Myanti-Lambda0 +CDecay Myanti-Sigma0 +End diff --git a/BaBar_2014/BpBm_JpsipSigma.dec b/BaBar_2014/BpBm_JpsipSigma.dec new file mode 100644 index 0000000..bd16566 --- /dev/null +++ b/BaBar_2014/BpBm_JpsipSigma.dec @@ -0,0 +1,53 @@ +################################################### +# # +# B- -> J/psi anti-p- sigma0 # +# | # +# ->l+l- # +# # +# Contact: Christopher Hearty # +# hearty@triumf.ca # +# Created July 11, 2002 # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +Alias MySigma0 Sigma0 +Alias Myanti-Sigma0 anti-Sigma0 +# +ChargeConj MyLambda0 Myanti-Lambda0 +ChargeConj MySigma0 Myanti-Sigma0 +ChargeConj MyB+ MyB- +# +ChargeConj MySigma0 Myanti-Sigma0 +ChargeConj MyB+ MyB- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.00 MyJ/psi anti-p- MySigma0 PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +Decay MySigma0 +1.00 MyLambda0 gamma PHSP; +Enddecay +# +CDecay MyB+ +CDecay Myanti-Lambda0 +CDecay Myanti-Sigma0 +End diff --git a/BaBar_2014/BpBm_Jpsiplambda.dec b/BaBar_2014/BpBm_Jpsiplambda.dec new file mode 100644 index 0000000..c5d85b4 --- /dev/null +++ b/BaBar_2014/BpBm_Jpsiplambda.dec @@ -0,0 +1,46 @@ +################################################### +# # +# B+/- --> J/psi p+ Lambda0 # +# B-/+ --> generic # +# # +# c.c. # +# # +# Author: Aron Soha soha@slac.stanford.edu # +# Created: 26 Jul 2001 # +# # +# Modified July 11, 2002, C. Hearty, # +# to force Jpsi, Lambda decays # +# # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +# +ChargeConj MyLambda0 Myanti-Lambda0 +ChargeConj MyB+ MyB- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.00 MyJ/psi anti-p- MyLambda0 PHSP; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +CDecay MyB+ +CDecay Myanti-Lambda0 +End diff --git a/BaBar_2014/BpBm_K0Lrho.dec b/BaBar_2014/BpBm_K0Lrho.dec new file mode 100644 index 0000000..44d5ca1 --- /dev/null +++ b/BaBar_2014/BpBm_K0Lrho.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> rho+ K0l + c.c. # +# | # +# `--> pi+ pi0 # +# # +# Author: Matt Graham # +# Created: 19 Apr 2004 # +# # +################################################### +# +# Decay table for B+ -> rho+ K0l +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho+ rho+ +Alias Myrho- rho- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho+ K_L0 SVS; +Enddecay +# +Decay MyB- +1.000 Myrho- K_L0 SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_K0srho.dec b/BaBar_2014/BpBm_K0srho.dec new file mode 100644 index 0000000..9434e3e --- /dev/null +++ b/BaBar_2014/BpBm_K0srho.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> rho+ K0s + c.c. # +# | # +# `--> pi+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> rho+ K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho+ rho+ +Alias Myrho- rho- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho+ K_S0 SVS; +Enddecay +# +Decay MyB- +1.000 Myrho- K_S0 SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_K0srho_kstopi0pi0.dec b/BaBar_2014/BpBm_K0srho_kstopi0pi0.dec new file mode 100644 index 0000000..6f73ec5 --- /dev/null +++ b/BaBar_2014/BpBm_K0srho_kstopi0pi0.dec @@ -0,0 +1,56 @@ +################################################### +# # +# B+ -> rho+ K0s + c.c. # +# | | # +# | | # +# | \-->pi0pi0 # +# | # +# `--> pi+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# Modified: 29 March 2001 to force ks->pi0pi0 # +# Adrian Bevan # +################################################### +# +# Decay table for B+ -> rho+ K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho+ rho+ +Alias Myrho- rho- +Alias MyKs K_S0 +Alias MyPi0 pi0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho+ K_S0 SVS; +Enddecay +# +Decay MyB- +1.000 Myrho- K_S0 SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +# +Decay MyKs +1.00 pi0 pi0 PHSP; +Enddecay +# +Decay MyPi0 +1.00 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_K2K0s.dec b/BaBar_2014/BpBm_K2K0s.dec new file mode 100644 index 0000000..f5f9d36 --- /dev/null +++ b/BaBar_2014/BpBm_K2K0s.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B+ -> K+ K0s K0s (non-resonant) + c.c. # +# # +# Author: Stefan Spanier # +# Created: 15 April 2003 # +# # +################################################### +# +# Decay table for B + -> K+ K0s K0s (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyB- +1.000 K- MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_K2pi.dec b/BaBar_2014/BpBm_K2pi.dec new file mode 100644 index 0000000..1a4a681 --- /dev/null +++ b/BaBar_2014/BpBm_K2pi.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> K+ pi+ pi- (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> K+ pi+ pi- (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ pi+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 K- pi- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_K2pi0.dec b/BaBar_2014/BpBm_K2pi0.dec new file mode 100644 index 0000000..edb3c2c --- /dev/null +++ b/BaBar_2014/BpBm_K2pi0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> K+ pi0 pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> K+ pi0 pi0 (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ pi0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 K- pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_KK0pi0.dec b/BaBar_2014/BpBm_KK0pi0.dec new file mode 100644 index 0000000..107af62 --- /dev/null +++ b/BaBar_2014/BpBm_KK0pi0.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B+ -> K+ K0S pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26/April/00 # +# # +################################################### +# +# Decay table for B+ -> K+ K0S pi0 (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K_S0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 K- K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KKpi_SMsupp.dec b/BaBar_2014/BpBm_KKpi_SMsupp.dec new file mode 100644 index 0000000..aa58d1f --- /dev/null +++ b/BaBar_2014/BpBm_KKpi_SMsupp.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> K+ K+ pi- (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 01/Jun/02 # +# # +################################################### +# +# Decay table for B+ -> K+ K+ pi- (non-resonant) +# using phase space (SM suppressed mode) +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 K- K- pi+ PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_KPiPiPi0.dec b/BaBar_2014/BpBm_KPiPiPi0.dec new file mode 100644 index 0000000..b60a5df --- /dev/null +++ b/BaBar_2014/BpBm_KPiPiPi0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> K+ pi+ pi- pi0 +cc # +# # +# Author: S. Emery # +# created: 22/07/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 K+ pi- pi+ pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 K- pi+ pi- pi0 PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BpBm_KSK.dec b/BaBar_2014/BpBm_KSK.dec new file mode 100644 index 0000000..9a5a9fe --- /dev/null +++ b/BaBar_2014/BpBm_KSK.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> Ks K- - # +# # +# Author: Jim Olsen # +# created: 3/Feb/99 # +# modified: g. london 10/Feb/99 # +# modified: g. london SSS-PHSP 21/Feb/99 # +################################################### +# +# Decay table for B- -> Ks K- using a simple (S)calar to (S)calar-(S)calar +# model. The Ks decays to pi+ pi-. +# +Alias MyB+ B+ +Alias MyB- B- +Alias myKs K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 myKs K+ PHSP; +Enddecay +# +Decay MyB- +1.00 myKs K- PHSP; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_KSpi.dec b/BaBar_2014/BpBm_KSpi.dec new file mode 100644 index 0000000..0182e0f --- /dev/null +++ b/BaBar_2014/BpBm_KSpi.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B- -> KS pi- # +# # +# + cc # +# # +# Author: Jim Olsen # +# created: 3/Feb/99 # +# modified: g.london 10/Feb/99 # +# modified: g.london SSS/PHSP 21/Feb/99 # +################################################### +# +# Decay table for B- -> Ks pi- using a simple (S)calar to (S)calar-(S)calar +# model. The Ks decays to pi+ pi-. +# +Alias myKs K_S0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 myKs pi+ PHSP; +Enddecay +# +Decay MyB- +1.00 myKs pi- PHSP; +Enddecay +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_KSpi_00.dec b/BaBar_2014/BpBm_KSpi_00.dec new file mode 100644 index 0000000..1a3198d --- /dev/null +++ b/BaBar_2014/BpBm_KSpi_00.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B- -> KS pi- # +# # +# + cc # +# # +# Author: Wah # +# from the Ks->pi+pi- by Olsen and London # +################################################### +# +# Decay table for B- -> Ks pi- using a simple (S)calar to (S)calar-(S)calar +# model. The Ks decays to pi0 pi0. +# +Alias myKs K_S0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 myKs pi+ PHSP; +Enddecay +# +Decay MyB- +1.00 myKs pi- PHSP; +Enddecay +# +Decay myKs +1.00 pi0 pi0 PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_KStarRho.dec b/BaBar_2014/BpBm_KStarRho.dec new file mode 100644 index 0000000..e8914e5 --- /dev/null +++ b/BaBar_2014/BpBm_KStarRho.dec @@ -0,0 +1,58 @@ +################################################### +# # +# B+ -> K*0 rho+ + C.C. # +# | | # +# | `--> pi+ pi0 # +# | # +# `--> K+ pi- # +# # +# Author: Huw Shorthouse H.Shorthouse@qmw.ac.uk # +# Created: 14/Jun/00 # +# Put back in ProdDecayFiles 24/Jul/02 C. Bozzi # +# # +################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho+ rho+ +Alias Myrho- rho- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Mypi0 pi0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*0 Myrho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.000 Myanti-K*0 Myrho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myrho+ +1.000 pi+ Mypi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- Mypi0 VSS; +Enddecay +# +Decay Mypi0 +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + +End diff --git a/BaBar_2014/BpBm_KStf0_f0topi0pi0.dec b/BaBar_2014/BpBm_KStf0_f0topi0pi0.dec new file mode 100644 index 0000000..537e837 --- /dev/null +++ b/BaBar_2014/BpBm_KStf0_f0topi0pi0.dec @@ -0,0 +1,32 @@ +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias myB+ B+ +Alias myB- B- +Alias myKst+ K*+ +Alias myKst- K*- +Alias myf0 f_0 +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 myKst+ myf0 SVS; +Enddecay +Decay myB- +1.0000 myKst- myf0 SVS; +Enddecay +Decay myKst+ +1.0000 K+ pi0 VSS; +Enddecay +Decay myKst- +1.0000 K- pi0 VSS; +Enddecay +Decay myf0 +1.000 pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_KStp_1410_pi0.dec b/BaBar_2014/BpBm_KStp_1410_pi0.dec new file mode 100644 index 0000000..ba3017e --- /dev/null +++ b/BaBar_2014/BpBm_KStp_1410_pi0.dec @@ -0,0 +1,23 @@ +Alias myB+ B+ +Alias myB- B- +Alias myKst+ K'*+ +Alias myKst- K'*- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 myKst+ pi0 SVS; +Enddecay +Decay myB- +1.0000 myKst- pi0 SVS; +Enddecay +Decay myKst+ +1.0000 K+ pi0 VSS; +Enddecay +Decay myKst- +1.0000 K- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_KStp_1680_pi0.dec b/BaBar_2014/BpBm_KStp_1680_pi0.dec new file mode 100644 index 0000000..b346ecc --- /dev/null +++ b/BaBar_2014/BpBm_KStp_1680_pi0.dec @@ -0,0 +1,23 @@ +Alias myB+ B+ +Alias myB- B- +Alias myKst+ K''*+ +Alias myKst- K''*- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 myKst+ pi0 SVS; +Enddecay +Decay myB- +1.0000 myKst- pi0 SVS; +Enddecay +Decay myKst+ +1.0000 K+ pi0 VSS; +Enddecay +Decay myKst- +1.0000 K- pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_KStp_spin0_1430_pi0.dec b/BaBar_2014/BpBm_KStp_spin0_1430_pi0.dec new file mode 100644 index 0000000..051937c --- /dev/null +++ b/BaBar_2014/BpBm_KStp_spin0_1430_pi0.dec @@ -0,0 +1,23 @@ +Alias myB+ B+ +Alias myB- B- +Alias myKst+ K_0*+ +Alias myKst- K_0*- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 myKst+ pi0 PHSP; +Enddecay +Decay myB- +1.0000 myKst- pi0 PHSP; +Enddecay +Decay myKst+ +1.0000 K+ pi0 PHSP; +Enddecay +Decay myKst- +1.0000 K- pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_KStp_spin2_1430_pi0.dec b/BaBar_2014/BpBm_KStp_spin2_1430_pi0.dec new file mode 100644 index 0000000..494be36 --- /dev/null +++ b/BaBar_2014/BpBm_KStp_spin2_1430_pi0.dec @@ -0,0 +1,23 @@ +Alias myB+ B+ +Alias myB- B- +Alias myKst+ K_2*+ +Alias myKst- K_2*- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 myKst+ pi0 STS; +Enddecay +Decay myB- +1.0000 myKst- pi0 STS; +Enddecay +Decay myKst+ +1.0000 K+ pi0 TSS; +Enddecay +Decay myKst- +1.0000 K- pi0 TSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kchi_c0_pipi.dec b/BaBar_2014/BpBm_Kchi_c0_pipi.dec new file mode 100644 index 0000000..d75fd98 --- /dev/null +++ b/BaBar_2014/BpBm_Kchi_c0_pipi.dec @@ -0,0 +1,35 @@ +################################################### +# # +# B+ -> K+ chi_c0 + C.C. # +# | # +# --> pi+ pi- # +# # +# Author: Huw Shorthouse huw@slac.stanford.edu # +# Created: 15/Jan/02 # +# # +################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c0 chi_c0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ Mychi_c0 PHSP; +Enddecay +# +Decay MyB- +1.000 K- Mychi_c0 PHSP; +Enddecay +# +Decay Mychi_c0 +1.000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kee_Ali.dec b/BaBar_2014/BpBm_Kee_Ali.dec new file mode 100644 index 0000000..757f2b0 --- /dev/null +++ b/BaBar_2014/BpBm_Kee_Ali.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> K- e+ e- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kee_Ball.dec b/BaBar_2014/BpBm_Kee_Ball.dec new file mode 100644 index 0000000..757f2b0 --- /dev/null +++ b/BaBar_2014/BpBm_Kee_Ball.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> K- e+ e- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Keta1295_KKpipl.dec b/BaBar_2014/BpBm_Keta1295_KKpipl.dec new file mode 100644 index 0000000..3194772 --- /dev/null +++ b/BaBar_2014/BpBm_Keta1295_KKpipl.dec @@ -0,0 +1,44 @@ +############################################################## +# # +# Decay: B+ -> eta(1295) K+, eta(1295) -> K0K-pi+ # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/30/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson eta(2S) 20221 1.297 0.053 0.2 # +# # +############################################################## +# +Alias Myetap eta(2S) +Alias MyK_S0 K_S0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ PHSP; +Enddecay +# +Decay Myetap +0.5000 MyK_S0 K+ pi- PHSP; +0.5000 MyK_S0 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Keta1295_KKpizr.dec b/BaBar_2014/BpBm_Keta1295_KKpizr.dec new file mode 100644 index 0000000..2181a7b --- /dev/null +++ b/BaBar_2014/BpBm_Keta1295_KKpizr.dec @@ -0,0 +1,38 @@ +############################################################## +# # +# Decay: B+ -> eta(1295) K+, eta(1295) -> K+K-pi0 # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/30/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson eta(2S) 20221 1.297 0.053 0.2 # +# # +############################################################## +# +Alias Myetap eta(2S) +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ PHSP; +Enddecay +# +Decay Myetap +1.0000 K+ K- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Keta1295_etapipi.dec b/BaBar_2014/BpBm_Keta1295_etapipi.dec new file mode 100644 index 0000000..66fbdf6 --- /dev/null +++ b/BaBar_2014/BpBm_Keta1295_etapipi.dec @@ -0,0 +1,43 @@ +############################################################## +# # +# Decay: B+ -> eta(1295) K+, eta(1295) -> eta(gg)pi+pi- # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/30/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson eta(2S) 20221 1.297 0.053 0.2 # +# # +############################################################## +# +Alias Myetap eta(2S) +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ PHSP; +Enddecay +# +Decay Myetap +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Keta_etaDalitz.dec b/BaBar_2014/BpBm_Keta_etaDalitz.dec new file mode 100644 index 0000000..44e12f3 --- /dev/null +++ b/BaBar_2014/BpBm_Keta_etaDalitz.dec @@ -0,0 +1,32 @@ +################################################### +# # +# Decay: B+ -> K+ eta + cc,eta->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myEta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 K+ myEta PHSP; +Enddecay +# +Decay MyB- +1.0000 K- myEta PHSP; +Enddecay +# +Decay myEta +1.00 e+ e- gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kf0.dec b/BaBar_2014/BpBm_Kf0.dec new file mode 100644 index 0000000..e6bd53e --- /dev/null +++ b/BaBar_2014/BpBm_Kf0.dec @@ -0,0 +1,56 @@ +################################################### +# # +# B+ -> f0(980) K+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Huw Shorthouse # +# Created: 14/Jun/00 # +# # +# Patched by Kelly Ford (17/Feb/04) # +# Taken from f0(980) Ks patch by Andreas Hoecker # +# # +################################################### +# +# Decay table for B+ -> f0(980) K+ using phase space. +# The f0(980) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf0 f_0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myf0 K- PHSP; +Enddecay +# +Decay Myf0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kf0_1370.dec b/BaBar_2014/BpBm_Kf0_1370.dec new file mode 100644 index 0000000..7f586a9 --- /dev/null +++ b/BaBar_2014/BpBm_Kf0_1370.dec @@ -0,0 +1,52 @@ +################################################### +# # +# B+ -> f0(1370) K+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 7/Oct/2002 # +# # +# Patched by Kelly Ford (06/Feb/04) # +# Using Andreas Hoecker's f'0 patch # +# # +################################################### +# +# Decay table for B+ -> f0(1370) K+ using phase space. +# The f0(1370) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0-1370) = 1.434 +- 0.018 GeV/c^2 +# G(f0-1370) = 0.173 +- 0.032 GeV/c^2 +# ) +# +Particle f'_0 1.434 0.173 +# +ChangeMassMin f'_0 0.40 +ChangeMassMax f'_0 2.50 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf'0 f'_0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf'0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myf'0 K- PHSP; +Enddecay +# +Decay Myf'0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kf1285_KKpipl.dec b/BaBar_2014/BpBm_Kf1285_KKpipl.dec new file mode 100644 index 0000000..748fd22 --- /dev/null +++ b/BaBar_2014/BpBm_Kf1285_KKpipl.dec @@ -0,0 +1,44 @@ +############################################################## +# # +# Decay: B+ -> f_1 K+, f_1(1285) -> K0K-pi+ # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/30/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV spin # +# Meson f_1 20223 1.2822 0.0248 0.05 1 # +# # +############################################################## +# +Alias Myetap f_1 +Alias MyK_S0 K_S0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- SVS; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ SVS; +Enddecay +# +Decay Myetap +0.5000 MyK_S0 K+ pi- PHSP; +0.5000 MyK_S0 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kf1285_KKpizr.dec b/BaBar_2014/BpBm_Kf1285_KKpizr.dec new file mode 100644 index 0000000..cce500c --- /dev/null +++ b/BaBar_2014/BpBm_Kf1285_KKpizr.dec @@ -0,0 +1,38 @@ +############################################################## +# # +# Decay: B+ -> f_1 K+, f_1(1285) -> K+K-pi0 # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/30/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV spin # +# Meson f_1 20223 1.2822 0.0248 0.05 1 # +# # +############################################################## +# +Alias Myetap f_1 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- SVS; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ SVS; +Enddecay +# +Decay Myetap +1.0000 K+ K- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kf1285_etapipi.dec b/BaBar_2014/BpBm_Kf1285_etapipi.dec new file mode 100644 index 0000000..a0e1549 --- /dev/null +++ b/BaBar_2014/BpBm_Kf1285_etapipi.dec @@ -0,0 +1,43 @@ +############################################################## +# # +# Decay: B+ -> f_1 K+, f_1(1285) -> eta(gg)pi+pi- # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/30/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV spin # +# Meson f_1 20223 1.2822 0.0248 0.05 1 # +# # +############################################################## +# +Alias Myetap f_1 +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- SVS; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ SVS; +Enddecay +# +Decay Myetap +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kf1525_K0K0.dec b/BaBar_2014/BpBm_Kf1525_K0K0.dec new file mode 100644 index 0000000..776d38e --- /dev/null +++ b/BaBar_2014/BpBm_Kf1525_K0K0.dec @@ -0,0 +1,43 @@ +############################################################## +# # +# Decay: B+ -> f'_2 K+, f'_2 -> KSKS # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson f'_2 335 1.525 0.076 0.2 # +# # +############################################################## +# +Alias Myetap f'_2 +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ STS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- STS; +Enddecay +# +Decay Myetap +1.0000 MyK_S0 MyK_S0 TSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kf1525_KpKm.dec b/BaBar_2014/BpBm_Kf1525_KpKm.dec new file mode 100644 index 0000000..7f25f3d --- /dev/null +++ b/BaBar_2014/BpBm_Kf1525_KpKm.dec @@ -0,0 +1,43 @@ +############################################################## +# # +# Decay: B+ -> f'_2 K+, f'_2 -> K+K- # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################## +# # +# id mass/GeV width/GeV max_Dm/GeV # +# Meson f'_2 335 1.525 0.076 0.2 # +# # +############################################################## +# +Alias Myetap f'_2 +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Myetap K+ STS; +Enddecay +# +Decay MyB- +1.0000 Myetap K- STS; +Enddecay +# +Decay Myetap +1.0000 K+ K- TSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kf2.dec b/BaBar_2014/BpBm_Kf2.dec new file mode 100644 index 0000000..4d1a35c --- /dev/null +++ b/BaBar_2014/BpBm_Kf2.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B+ -> K+ f_2 + c.c. # +# | # +# -> pi+ pi- # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 7/Oct/2002 # +# # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf_2 f_2 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf_2 K+ STS; +Enddecay +# +Decay MyB- +1.000 Myf_2 K- STS; +Enddecay +# +Decay Myf_2 +1.00 pi+ pi- TSS; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kmumu_Ali.dec b/BaBar_2014/BpBm_Kmumu_Ali.dec new file mode 100644 index 0000000..1fdbd17 --- /dev/null +++ b/BaBar_2014/BpBm_Kmumu_Ali.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> K- mu+ mu- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kmumu_Ball.dec b/BaBar_2014/BpBm_Kmumu_Ball.dec new file mode 100644 index 0000000..1fdbd17 --- /dev/null +++ b/BaBar_2014/BpBm_Kmumu_Ball.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> K- mu+ mu- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_KpKmKstar_KSpip.dec b/BaBar_2014/BpBm_KpKmKstar_KSpip.dec new file mode 100644 index 0000000..c8f4b9e --- /dev/null +++ b/BaBar_2014/BpBm_KpKmKstar_KSpip.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B+ -> K+ K- K*+ (KSpi+) (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K- MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.000 K- K+ MyK*- PHSP; +Enddecay +# +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KpKmKstar_Kppi0.dec b/BaBar_2014/BpBm_KpKmKstar_Kppi0.dec new file mode 100644 index 0000000..493c67a --- /dev/null +++ b/BaBar_2014/BpBm_KpKmKstar_Kppi0.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B+ -> K+ K- K*+ (K+pi0) (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K- MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.000 K- K+ MyK*- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KpKpKm_intf1.dec b/BaBar_2014/BpBm_KpKpKm_intf1.dec new file mode 100644 index 0000000..18de5ce --- /dev/null +++ b/BaBar_2014/BpBm_KpKpKm_intf1.dec @@ -0,0 +1,108 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> K+ K+ K- +# +# charge conjugation assumed +# +# The decay into the K+ K+ K- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 2.004391 +#Total: 325.313764 +# Channel I |c| |c|^2*I Fract +# NR 293.72 0.50 73.43 0.22 +# phi 4.50 5.00 112.38 0.34 +# phi 4.51 5.00 112.75 0.34 +# f'_2 14.58 1.00 14.58 0.04 +# f'_2 14.32 1.00 14.32 0.04 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0 K+ K+ K- PTO3P + + MAXPDF 2.4 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # KK RESONANCES + + AMPLITUDE RESONANCE CA phi + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 5.0 1.0 + + AMPLITUDE RESONANCE BC phi + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 5.0 1.0 + + AMPLITUDE RESONANCE CA f'_2 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 2.0 + + AMPLITUDE RESONANCE BC f'_2 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 2.0 + + ; + +Enddecay + + +Decay MyB- +1.0 K- K- K+ PTO3P + + MAXPDF 2.4 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # KK RESONANCES + + AMPLITUDE RESONANCE CA phi + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 5.0 1.0 + + AMPLITUDE RESONANCE BC phi + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 5.0 1.0 + + AMPLITUDE RESONANCE CA f'_2 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 2.0 + + AMPLITUDE RESONANCE BC f'_2 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 2.0 + + ; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_KpKpKstar_KSpim.dec b/BaBar_2014/BpBm_KpKpKstar_KSpim.dec new file mode 100644 index 0000000..70dbd8d --- /dev/null +++ b/BaBar_2014/BpBm_KpKpKstar_KSpim.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B+ -> K+ K+ K*- (KSpi-) (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K+ MyK*- PHSP; +Enddecay +# +Decay MyB- +1.000 K- K- MyK*+ PHSP; +Enddecay +# +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KpKpKstar_Kmpi0.dec b/BaBar_2014/BpBm_KpKpKstar_Kmpi0.dec new file mode 100644 index 0000000..8d43af6 --- /dev/null +++ b/BaBar_2014/BpBm_KpKpKstar_Kmpi0.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B+ -> K+ K+ K*- (K-pi0) (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ K+ MyK*- PHSP; +Enddecay +# +Decay MyB- +1.000 K- K- MyK*+ PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kpemmup_PHSP.dec b/BaBar_2014/BpBm_Kpemmup_PHSP.dec new file mode 100644 index 0000000..cf34a8b --- /dev/null +++ b/BaBar_2014/BpBm_Kpemmup_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> K- e+ mu- # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K+ mu+ e- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 K- e+ mu- PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kpepmum_PHSP.dec b/BaBar_2014/BpBm_Kpepmum_PHSP.dec new file mode 100644 index 0000000..d916335 --- /dev/null +++ b/BaBar_2014/BpBm_Kpepmum_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> K- e- mu+ # +# # +# + cc # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 4/Oct/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K+ mu- e+ PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 K- e- mu+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kpf0_f0topi0pi0.dec b/BaBar_2014/BpBm_Kpf0_f0topi0pi0.dec new file mode 100644 index 0000000..d6e64dc --- /dev/null +++ b/BaBar_2014/BpBm_Kpf0_f0topi0pi0.dec @@ -0,0 +1,26 @@ +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf0 f_0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myf0 K- PHSP; +Enddecay +# +Decay Myf0 +1.000 pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kpf2_f2topi0pi0.dec b/BaBar_2014/BpBm_Kpf2_f2topi0pi0.dec new file mode 100644 index 0000000..da0b33a --- /dev/null +++ b/BaBar_2014/BpBm_Kpf2_f2topi0pi0.dec @@ -0,0 +1,21 @@ +Alias MyB+ B+ +Alias MyB- B- +Alias Myf2 f_2 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf2 K+ STS; +Enddecay +# +Decay MyB- +1.000 Myf2 K- STS; +Enddecay +# +Decay Myf2 +1.000 pi0 pi0 TSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kpgg_PHSP.dec b/BaBar_2014/BpBm_Kpgg_PHSP.dec new file mode 100644 index 0000000..56149c0 --- /dev/null +++ b/BaBar_2014/BpBm_Kpgg_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> K- gamma gamma # +# # +# + cc # +# # +# F. Di Lodovico # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K+ gamma gamma PHSP; +Enddecay +# +Decay MyB- +1.00 K- gamma gamma PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kpi0.dec b/BaBar_2014/BpBm_Kpi0.dec new file mode 100644 index 0000000..30dcfc9 --- /dev/null +++ b/BaBar_2014/BpBm_Kpi0.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K+ pi0 + c.c. with pi0 -> gamma gamma # +# # +# Author: Paul Dauncey P.Dauncey@ic.ac.uk # +# Created: 19/Apr/00 # +# # +################################################### +# +# Decay table for B+ -> K+ pi0 +# +Alias myPi0 pi0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ myPi0 PHSP; +Enddecay +# +Decay MyB- +1.000 K- myPi0 PHSP; +Enddecay +# +Decay myPi0 +1.00 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kpi0_pi0Dalitz.dec b/BaBar_2014/BpBm_Kpi0_pi0Dalitz.dec new file mode 100644 index 0000000..facc3ff --- /dev/null +++ b/BaBar_2014/BpBm_Kpi0_pi0Dalitz.dec @@ -0,0 +1,32 @@ +################################################### +# # +# Decay: B+ -> K+ pi0 + cc,pi0->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myPi0 pi0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 K+ myPi0 PHSP; +Enddecay +# +Decay MyB- +1.0000 K- myPi0 PHSP; +Enddecay +# +Decay myPi0 +1.00 e+ e- gamma PI0_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kpipi_SMsupp.dec b/BaBar_2014/BpBm_Kpipi_SMsupp.dec new file mode 100644 index 0000000..23ed7a5 --- /dev/null +++ b/BaBar_2014/BpBm_Kpipi_SMsupp.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> K- pi+ pi+ (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 01/Jun/02 # +# # +################################################### +# +# Decay table for B+ -> K- pi+ pi+ (non-resonant) +# using phase space (SM suppressed mode) +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K- pi+ pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 K+ pi- pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kpll.dec b/BaBar_2014/BpBm_Kpll.dec new file mode 100644 index 0000000..3c1335e --- /dev/null +++ b/BaBar_2014/BpBm_Kpll.dec @@ -0,0 +1,40 @@ +################################################################### +# B+ --> K+ e+e-/mu+mu-, B- - > generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: P. Reinertsen 8/11/99 # +# Mail: PLASSE@SLAC.STANFORD.EDU +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +0.5000 K+ e+ e- PHOTOS PHSP ; +0.5000 K+ mu+ mu- PHOTOS PHSP ; +Enddecay +# +Decay MyB- +0.5000 K- e+ e- PHOTOS PHSP ; +0.5000 K- mu+ mu- PHOTOS PHSP ; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/BpBm_Kpnunu.dec b/BaBar_2014/BpBm_Kpnunu.dec new file mode 100644 index 0000000..396c932 --- /dev/null +++ b/BaBar_2014/BpBm_Kpnunu.dec @@ -0,0 +1,38 @@ +################################################################### +# B+ --> K+ nu nubar, B- - > generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: T.I. Meyer 9/28/00 # +# Mail: MEYERTIM@SLAC.STANFORD.EDU +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 K+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyB- +1.0000 K- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/BpBm_KppipKm_intf1.dec b/BaBar_2014/BpBm_KppipKm_intf1.dec new file mode 100644 index 0000000..297c45a --- /dev/null +++ b/BaBar_2014/BpBm_KppipKm_intf1.dec @@ -0,0 +1,135 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> K+ pi+ K- +# +# charge conjugation assumed +# +# The decay into the K+ pi+ K- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 4.579823 +#Total: 272.893283 +# Channel I |c| |c|^2*I Fract +# NR 320.74 0.50 80.19 0.28 +# phi 4.55 5.00 113.84 0.40 +# K*0 38.97 1.00 38.97 0.14 +# K_0*0 151.71 0.30 13.65 0.05 +# K_2*0 16.03 1.00 16.03 0.06 +# K''*0 24.79 1.00 24.79 0.09 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0 K+ pi+ K- PTO3P + + MAXPDF 5.7 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # KK RESONANCES + + AMPLITUDE RESONANCE CA phi + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 5.0 0.0 + + AMPLITUDE RESONANCE CA f'_2 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + + + # KPI RESONANCES + + AMPLITUDE RESONANCE BC K*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE BC K_0*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.3 0.0 + + AMPLITUDE RESONANCE BC K_2*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE BC K''*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + ; + +Enddecay + + +Decay MyB- +1.0 K- pi- K+ PTO3P + + MAXPDF 5.7 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # KK RESONANCES + + AMPLITUDE RESONANCE CA phi + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 5.0 0.0 + + AMPLITUDE RESONANCE CA f'_2 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + + + # KPI RESONANCES + + AMPLITUDE RESONANCE BC K*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE BC K_0*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.3 0.0 + + AMPLITUDE RESONANCE BC K_2*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE BC K''*0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + ; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kppippim_intf1.dec b/BaBar_2014/BpBm_Kppippim_intf1.dec new file mode 100644 index 0000000..6e3886a --- /dev/null +++ b/BaBar_2014/BpBm_Kppippim_intf1.dec @@ -0,0 +1,155 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> K+ pi+ pi- +# +# charge conjugation assumed +# +# The decay into the K+ pi+ pi- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 4.473968 +#Total: 279.471343 +# Channel I |c| |c|^2*I Fract +# NR 348.34 0.50 87.08 0.32 +# rho0 31.54 1.00 31.54 0.12 +# rho(2S)0 28.39 0.50 7.10 0.03 +# rho(3S)0 42.75 0.30 3.85 0.01 +# f_0 50.63 1.00 50.63 0.18 +# K*0 39.13 1.00 39.13 0.14 +# K_0*0 153.44 0.30 13.81 0.05 +# K_2*0 15.89 1.00 15.89 0.06 +# K''*0 24.67 1.00 24.67 0.09 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0 K+ pi+ pi- PTO3P + + MAXPDF 5.4 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.0 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 0.0 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.0 + + # KPI RESONANCES + + AMPLITUDE RESONANCE CA K*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE CA K_0*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.3 0.0 + + AMPLITUDE RESONANCE CA K_2*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE CA K''*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + ; + +Enddecay + + +Decay MyB- +1.0 K- pi- pi+ PTO3P + + MAXPDF 5.4 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.0 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 0.0 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.0 + + # KPI RESONANCES + + AMPLITUDE RESONANCE CA K*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE CA K_0*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.3 0.0 + + AMPLITUDE RESONANCE CA K_2*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE CA K''*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + ; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kppippim_intf2.dec b/BaBar_2014/BpBm_Kppippim_intf2.dec new file mode 100644 index 0000000..51f4731 --- /dev/null +++ b/BaBar_2014/BpBm_Kppippim_intf2.dec @@ -0,0 +1,155 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> K+ pi+ pi- +# +# charge conjugation assumed +# +# The decay into the K+ pi+ pi- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 7.945768 +#Total: 299.907341 +# Channel I |c| |c|^2*I Fract +# NR 348.34 0.50 87.08 0.32 +# rho0 31.54 1.00 31.54 0.12 +# rho(2S)0 28.39 0.50 7.10 0.03 +# rho(3S)0 42.75 0.30 3.85 0.01 +# f_0 50.63 1.00 50.63 0.18 +# K*0 39.13 1.00 39.13 0.14 +# K_0*0 153.44 0.30 13.81 0.05 +# K_2*0 15.89 1.00 15.89 0.06 +# K''*0 24.67 1.00 24.67 0.09 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0 K+ pi+ pi- PTO3P + + MAXPDF 9.6 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 3.14 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 -1.2 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 1.0 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 -0.5 + + # KPI RESONANCES + + AMPLITUDE RESONANCE CA K*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 3.0 + + AMPLITUDE RESONANCE CA K_0*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.3 -2.0 + + AMPLITUDE RESONANCE CA K_2*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE CA K''*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 -2.5 + + ; + +Enddecay + + +Decay MyB- +1.0 K- pi- pi+ PTO3P + + MAXPDF 9.6 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 3.14 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 -1.2 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 1.0 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 -0.5 + + # KPI RESONANCES + + AMPLITUDE RESONANCE CA K*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 3.0 + + AMPLITUDE RESONANCE CA K_0*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.3 -2.0 + + AMPLITUDE RESONANCE CA K_2*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 0.0 + + AMPLITUDE RESONANCE CA K''*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 -2.5 + + ; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kppippim_intf3.dec b/BaBar_2014/BpBm_Kppippim_intf3.dec new file mode 100644 index 0000000..59d2b62 --- /dev/null +++ b/BaBar_2014/BpBm_Kppippim_intf3.dec @@ -0,0 +1,156 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> K+ pi+ pi- +# +# charge conjugation assumed +# +# The decay into the K+ pi+ pi- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 4.554229 +#Total: 279.638730 +# Channel I |c| |c|^2*I Fract +# NR 348.34 0.50 87.08 0.30 +# rho0 31.54 0.80 20.19 0.07 +# rho(2S)0 28.39 0.60 10.22 0.03 +# rho(3S)0 42.75 0.40 6.84 0.02 +# f_0 50.63 1.00 50.63 0.17 +# K*0 39.14 1.00 39.14 0.13 +# K_0*0 153.44 0.50 38.36 0.13 +# K_2*0 15.90 1.00 15.90 0.05 +# K''*0 24.67 1.00 24.67 0.08 + + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0 K+ pi+ pi- PTO3P + + MAXPDF 5.5 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.8 0.0 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.6 0.0 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.4 -0.5 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.5 + + # KPI RESONANCES + + AMPLITUDE RESONANCE CA K*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 3.14 + + AMPLITUDE RESONANCE CA K_0*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.5 -2.5 + + AMPLITUDE RESONANCE CA K_2*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 -2.0 + + AMPLITUDE RESONANCE CA K''*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 1.5 + + ; + +Enddecay + +Decay MyB- +1.0 K- pi- pi+ PTO3P + + MAXPDF 5.5 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.8 0.0 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.6 0.0 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.4 -0.5 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.5 + + # KPI RESONANCES + + AMPLITUDE RESONANCE CA K*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 3.14 + + AMPLITUDE RESONANCE CA K_0*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 0.5 -2.5 + + AMPLITUDE RESONANCE CA K_2*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 -2.0 + + AMPLITUDE RESONANCE CA K''*0 + ANGULAR AB + TYPE RBW_ZEMACH + COEFFICIENT POLAR_DEG 1.0 1.5 + + ; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Krho.dec b/BaBar_2014/BpBm_Krho.dec new file mode 100644 index 0000000..d68fac8 --- /dev/null +++ b/BaBar_2014/BpBm_Krho.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B- -> rho0 K- + cc # +# # +# Author: Jim Olsen # +# created: 3/Feb/99 # +# modified: g.london 10/Feb/99 # +################################################### +# +# Decay table for B- -> K- rho0 using a simple (S)calar to (V)ector-(S)calar +# model. The rho0 decays to pi+ pi-. +# +Alias MyB+ B+ +Alias MyB- B- +Alias myrho0 rho0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 myrho0 K+ SVS; +Enddecay +# +Decay MyB- +1.00 myrho0 K- SVS; +Enddecay +# +Decay myrho0 +1.00 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kst0Kst0H_KPi_KPi.dec b/BaBar_2014/BpBm_Kst0Kst0H_KPi_KPi.dec new file mode 100644 index 0000000..c98d688 --- /dev/null +++ b/BaBar_2014/BpBm_Kst0Kst0H_KPi_KPi.dec @@ -0,0 +1,51 @@ +################################################### +# # +# B+ -> K*0 K*0 h+ +cc (K*0 -> K+ pi-) # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*0 MyK*0 pi+ PHSP; +1.0000 MyK*0 MyK*0 K+ PHSP; +1.0000 MyK*0bar MyK*0 pi+ PHSP; +#1.0000 MyK*0bar MyK*0 K+ PHSP; +1.0000 MyK*0bar MyK*0bar pi+ PHSP; +#1.0000 MyK*0bar MyK*0bar K+ PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*0 MyK*0 pi- PHSP; +1.0000 MyK*0 MyK*0 K- PHSP; +1.0000 MyK*0bar MyK*0 pi- PHSP; +#1.0000 MyK*0bar MyK*0 K- PHSP; +1.0000 MyK*0bar MyK*0bar pi- PHSP; +#1.0000 MyK*0bar MyK*0bar K- PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Kst0Rho0H_KPi.dec b/BaBar_2014/BpBm_Kst0Rho0H_KPi.dec new file mode 100644 index 0000000..2d0f0fb --- /dev/null +++ b/BaBar_2014/BpBm_Kst0Rho0H_KPi.dec @@ -0,0 +1,47 @@ +################################################### +# # +# B+ -> K*0 rho0 h+ +cc (K*0 -> K+ pi-) # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*0 rho0 pi+ PHSP; +1.0000 MyK*0 rho0 K+ PHSP; +1.0000 MyK*0bar rho0 pi+ PHSP; +1.0000 MyK*0bar rho0 K+ PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*0 rho0 pi- PHSP; +1.0000 MyK*0 rho0 K- PHSP; +1.0000 MyK*0bar rho0 pi- PHSP; +1.0000 MyK*0bar rho0 K- PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Kst0RhoPi0_KPi.dec b/BaBar_2014/BpBm_Kst0RhoPi0_KPi.dec new file mode 100644 index 0000000..1845576 --- /dev/null +++ b/BaBar_2014/BpBm_Kst0RhoPi0_KPi.dec @@ -0,0 +1,42 @@ +################################################### +# # +# B+ -> K*0 rho+ pi0 +cc (K*0 -> K+ pi-) # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*0 rho+ pi0 PHSP; +1.0000 MyK*0bar rho+ pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*0 rho- pi0 PHSP; +1.0000 MyK*0bar rho- pi0 PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_KstKst0Pi0_KPi0_KPi.dec b/BaBar_2014/BpBm_KstKst0Pi0_KPi0_KPi.dec new file mode 100644 index 0000000..b324269 --- /dev/null +++ b/BaBar_2014/BpBm_KstKst0Pi0_KPi0_KPi.dec @@ -0,0 +1,52 @@ +################################################### +# # +# B+ -> K*+ K*0 pi0 +cc (K*+ -> K+ pi0; K*0 -> K+ pi-) # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*+ MyK*0 pi0 PHSP; +1.0000 MyK*+ MyK*0bar pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*- MyK*0 pi0 PHSP; +1.0000 MyK*- MyK*0bar pi0 PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_KstKstH_KPi0_KPi0.dec b/BaBar_2014/BpBm_KstKstH_KPi0_KPi0.dec new file mode 100644 index 0000000..9745bed --- /dev/null +++ b/BaBar_2014/BpBm_KstKstH_KPi0_KPi0.dec @@ -0,0 +1,46 @@ +################################################### +# # +# B+ -> K*+ K*- h+ +cc (K*+ -> K+ pi0) # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*+ MyK*- pi+ PHSP; +1.0000 MyK*+ MyK*+ pi- PHSP; +#1.0000 MyK*+ MyK*- K+ PHSP; +#1.0000 MyK*+ MyK*+ K- PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*- MyK*- pi+ PHSP; +1.0000 MyK*- MyK*+ pi- PHSP; +#1.0000 MyK*- MyK*- K+ PHSP; +#1.0000 MyK*- MyK*+ K- PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_KstRho0Pi0_KPi0.dec b/BaBar_2014/BpBm_KstRho0Pi0_KPi0.dec new file mode 100644 index 0000000..71ee771 --- /dev/null +++ b/BaBar_2014/BpBm_KstRho0Pi0_KPi0.dec @@ -0,0 +1,40 @@ +################################################### +# # +# B+ -> K*+ rho0 pi0 +cc (K*+ -> K+ pi0) # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*+ rho0 pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*- rho0 pi0 PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_KstRhoH_KPi0.dec b/BaBar_2014/BpBm_KstRhoH_KPi0.dec new file mode 100644 index 0000000..8138837 --- /dev/null +++ b/BaBar_2014/BpBm_KstRhoH_KPi0.dec @@ -0,0 +1,50 @@ +################################################### +# # +# B+ -> K*+ rho- h+ +cc (K*+ -> K+ pi0) # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*+ rho- pi+ PHSP; +1.0000 MyK*+ rho- K+ PHSP; +1.0000 MyK*+ rho+ pi- PHSP; +1.0000 MyK*+ rho+ K- PHSP; +1.0000 MyK*- rho+ pi+ PHSP; +1.0000 MyK*- rho+ K+ PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*- rho- pi+ PHSP; +1.0000 MyK*- rho- K+ PHSP; +1.0000 MyK*- rho+ pi- PHSP; +1.0000 MyK*- rho+ K- PHSP; +1.0000 MyK*+ rho- pi- PHSP; +1.0000 MyK*+ rho- K- PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_KstRhomPip_KPi0.dec b/BaBar_2014/BpBm_KstRhomPip_KPi0.dec new file mode 100644 index 0000000..ffb4536 --- /dev/null +++ b/BaBar_2014/BpBm_KstRhomPip_KPi0.dec @@ -0,0 +1,37 @@ +################################################### +# # +# B+ -> K*+ rho- pi+ +cc (K*+ -> K+ pi0) # +# # +# Author: S. Emery # +# created: 23/07/03 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyK*+ rho- pi+ PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*- rho+ pi- PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_KstRhopPim_KPi0.dec b/BaBar_2014/BpBm_KstRhopPim_KPi0.dec new file mode 100644 index 0000000..2dfbde2 --- /dev/null +++ b/BaBar_2014/BpBm_KstRhopPim_KPi0.dec @@ -0,0 +1,40 @@ +################################################### +# # +# B+ -> K*+ rho+ pi- +cc (K*+ -> K+ pi0) # +# # +# Author: S. EMERY # +# created: 23/07/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 MyK*+ rho+ pi- PHSP; +Enddecay + +Decay MyB- +1.0000 MyK*- rho- pi+ PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Kst_1273_gamma.dec b/BaBar_2014/BpBm_Kst_1273_gamma.dec new file mode 100644 index 0000000..9efc6c1 --- /dev/null +++ b/BaBar_2014/BpBm_Kst_1273_gamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B+ B-bar + CC # +# | | # +# | -> K-(1273) gamma # +# | # +# -> X # +# # +# # +############################################################################### +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- +# +Decay Upsilon(4S) +0.50000 B- myB+ VSS; +0.50000 B+ myB- VSS; +Enddecay +# +# +Decay myB- +1.0000 K_1- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay myB+ +1.0000 K_1+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kst_1402_gamma.dec b/BaBar_2014/BpBm_Kst_1402_gamma.dec new file mode 100644 index 0000000..104efad --- /dev/null +++ b/BaBar_2014/BpBm_Kst_1402_gamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B+ B-bar + CC # +# | | # +# | -> K-(1402) gamma # +# | # +# -> X # +# # +# # +############################################################################### +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- +# +Decay Upsilon(4S) +0.50000 B- myB+ VSS; +0.50000 B+ myB- VSS; +Enddecay +# +# +Decay myB- +1.0000 K'_1- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay myB+ +1.0000 K'_1+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kst_1430_gamma.dec b/BaBar_2014/BpBm_Kst_1430_gamma.dec new file mode 100644 index 0000000..300620d --- /dev/null +++ b/BaBar_2014/BpBm_Kst_1430_gamma.dec @@ -0,0 +1,28 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B+ B-bar + CC # +# | | # +# | -> K*2-(1430) gamma # +# | # +# -> X # +# lodovico@slac.stanford.edu # +############################################################################### +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- +# +Decay Upsilon(4S) +0.50000 B- myB+ VSS; +0.50000 B+ myB- VSS; +Enddecay +# +# +Decay myB- +1.0000 K_2*- gamma HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay myB+ +1.0000 K_2*+ gamma HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kstar0K0sK.dec b/BaBar_2014/BpBm_Kstar0K0sK.dec new file mode 100644 index 0000000..42c7057 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0K0sK.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B+ -> K+ K0s K*0 + c.c. # +# |-> K0s pi0 +# # +# Author: Joshua Thompson # +# Created: 17 September 2003 # +# # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 K+ MyK_S0 MyK*0 PHSP; +Enddecay +# +Decay MyB- +1.000 K- MyK_S0 Myanti-K*0 PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 MyK_S0 pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstar0_1430_0_pip_Kstar0mKppim.dec b/BaBar_2014/BpBm_Kstar0_1430_0_pip_Kstar0mKppim.dec new file mode 100644 index 0000000..e9e0760 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0_1430_0_pip_Kstar0mKppim.dec @@ -0,0 +1,34 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B- B+ + CC # +# | | # +# | -> K*0(1430)0 pi+ # +# | | # +# -> X -> K+ pi- # +# # +# # +# Mail: keford@slac.stanford.edu # +############################################################################### +Alias myB+ B+ +Alias myB- B- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# +Decay myB+ +1.0000 K_0*0 pi+ PHSP; +Enddecay +Decay myB- +1.0000 anti-K_0*0 pi- PHSP; +Enddecay +Decay K_0*0 +1.0000 K+ pi- PHSP; +Enddecay +Decay anti-K_0*0 +1.0000 K- pi+ PHSP; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kstar0barK_Kstar0barK0spi0.dec b/BaBar_2014/BpBm_Kstar0barK_Kstar0barK0spi0.dec new file mode 100644 index 0000000..b6b3deb --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0barK_Kstar0barK0spi0.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B+ -> K+ K*0bar + c.c. # +# | # +# | # +# `--> K0s pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> K+ K*0bar +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*0bar decays to K0s pi0 (using a simple VSS model). +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-K*0 K+ SVS; +Enddecay +# +Decay MyB- +1.000 MyK*0 K- SVS; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K_S0 pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstar0p_ee_Ball.dec b/BaBar_2014/BpBm_Kstar0p_ee_Ball.dec new file mode 100644 index 0000000..3e33551 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0p_ee_Ball.dec @@ -0,0 +1,48 @@ +################################################### +# # +# B+ -> K*+(->K0s pi+) mu+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstar0p_emmup_PHSP.dec b/BaBar_2014/BpBm_Kstar0p_emmup_PHSP.dec new file mode 100644 index 0000000..1684f2f --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0p_emmup_PHSP.dec @@ -0,0 +1,48 @@ +################################################### +# # +# B+ -> K*+(->K0s pi+) e- mu+ + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e- mu+ PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 MyK*- mu- e+ PHOTOS PHSP; +Enddecay +# +Decay MyK*+ +1.0 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstar0p_epmum_PHSP.dec b/BaBar_2014/BpBm_Kstar0p_epmum_PHSP.dec new file mode 100644 index 0000000..7f5b5c1 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0p_epmum_PHSP.dec @@ -0,0 +1,48 @@ +################################################### +# # +# B+ -> K*+(->K0s pi+) e+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e+ mu- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 MyK*- mu+ e- PHOTOS PHSP; +Enddecay +# +Decay MyK*+ +1.0 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstar0p_mumu_Ball.dec b/BaBar_2014/BpBm_Kstar0p_mumu_Ball.dec new file mode 100644 index 0000000..e198ddd --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0p_mumu_Ball.dec @@ -0,0 +1,48 @@ +################################################### +# # +# B+ -> K*+(->K0s pi+) mu+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstar0pi_Kstar0K0pi0.dec b/BaBar_2014/BpBm_Kstar0pi_Kstar0K0pi0.dec new file mode 100644 index 0000000..e4602b6 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar0pi_Kstar0K0pi0.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B+ -> pi+ K*0 + c.c. # +# | # +# | # +# ---> K0S pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26/April/00 # +# # +################################################### +# +# Decay table for B+ -> pi+ K*0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*0 decays to K0S pi0 (using a simple VSS model). +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.000 Myanti-K*0 pi- SVS; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K_S0 pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstar1410_0_pip_Kstar1410mKpi.dec b/BaBar_2014/BpBm_Kstar1410_0_pip_Kstar1410mKpi.dec new file mode 100644 index 0000000..ad8d012 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar1410_0_pip_Kstar1410mKpi.dec @@ -0,0 +1,34 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B- B+ + CC # +# | | # +# | -> K*(1410)0 pi+ # +# | | # +# -> X -> K+ pi- # +# # +# # +# Mail: keford@slac.stanford.edu +############################################################################### +Alias myB+ B+ +Alias myB- B- + +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# +Decay myB+ +1.0000 K'*0 pi+ SVS; +Enddecay +Decay myB- +1.0000 anti-K'*0 pi- SVS; +Enddecay +Decay K'*0 +1.0000 K+ pi- VSS; +Enddecay +Decay anti-K'*0 +1.0000 K- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstar1680_0_pip_Kstar1680mKpi.dec b/BaBar_2014/BpBm_Kstar1680_0_pip_Kstar1680mKpi.dec new file mode 100644 index 0000000..38fcca7 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar1680_0_pip_Kstar1680mKpi.dec @@ -0,0 +1,35 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B- B+ + CC # +# | | # +# | -> K*(1680)0 pi+ # +# | | # +# -> X -> K+ pi- # +# # +# # +# Mail: keford@slac.stanford.edu +############################################################################### +Alias myB+ B+ +Alias myB- B- + +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# +Decay myB+ +1.0000 K''*0 pi+ SVS; +Enddecay +Decay myB- +1.0000 anti-K''*0 pi- SVS; +Enddecay +Decay K''*0 +1.0000 K+ pi- VSS; +Enddecay +Decay anti-K''*0 +1.0000 K- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/BpBm_Kstar2_1430_0_pip_Kstar2mKppim.dec b/BaBar_2014/BpBm_Kstar2_1430_0_pip_Kstar2mKppim.dec new file mode 100644 index 0000000..610b46e --- /dev/null +++ b/BaBar_2014/BpBm_Kstar2_1430_0_pip_Kstar2mKppim.dec @@ -0,0 +1,34 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B- B+ + CC # +# | | # +# | -> K*0(1430)2 pi+ # +# | | # +# -> X -> K+ pi- # +# # +# # +# Mail: keford@slac.stanford.edu # +############################################################################### +Alias myB+ B+ +Alias myB- B- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# +Decay myB+ +1.0000 K_2*0 pi+ STS; +Enddecay +Decay myB- +1.0000 anti-K_2*0 pi- STS; +Enddecay +Decay K_2*0 +1.0000 K+ pi- TSS; +Enddecay +Decay anti-K_2*0 +1.0000 K- pi+ TSS; +Enddecay + +End diff --git a/BaBar_2014/BpBm_KstarK.dec b/BaBar_2014/BpBm_KstarK.dec new file mode 100644 index 0000000..12425e0 --- /dev/null +++ b/BaBar_2014/BpBm_KstarK.dec @@ -0,0 +1,42 @@ +################################################### +# # +# B+ -> K+ K*0bar + c.c. # +# | # +# | # +# ---> K- pi+ # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> K+ K*0bar +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*0bar decays to K- pi+ (using a simple VSS model). +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-K*0 K+ SVS; +Enddecay +# +Decay MyB- +1.000 MyK*0 K- SVS; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_KstarK0s_KstarK0spi.dec b/BaBar_2014/BpBm_KstarK0s_KstarK0spi.dec new file mode 100644 index 0000000..f10f872 --- /dev/null +++ b/BaBar_2014/BpBm_KstarK0s_KstarK0spi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> K*+ K0s + c.c. # +# | # +# `--> K0S pi+ # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> K*+ K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K0s pi+ (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*+ K_S0 SVS; +Enddecay +# +Decay MyB- +1.000 MyK*- K_S0 SVS; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarK0s_KstarKpi0.dec b/BaBar_2014/BpBm_KstarK0s_KstarKpi0.dec new file mode 100644 index 0000000..8a35181 --- /dev/null +++ b/BaBar_2014/BpBm_KstarK0s_KstarKpi0.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> K*+ K0s + c.c. # +# | # +# `--> K+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> K*+ K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*+ K_S0 SVS; +Enddecay +# +Decay MyB- +1.000 MyK*- K_S0 SVS; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarK_1270.dec b/BaBar_2014/BpBm_KstarK_1270.dec new file mode 100644 index 0000000..4c651ad --- /dev/null +++ b/BaBar_2014/BpBm_KstarK_1270.dec @@ -0,0 +1,48 @@ +##################################################### +# _ # +# B+ -> K_1(1270) K+ (100%) + C.C. # +# _ # +# K_1(1270) -> rho+ K- (100%) + C.C. # +# # +# rho+ -> pi0 pi+ (100%) + C.C. # +# # +# Author: J. P. Burke phjpb@SLAC.Stanford.EDU # +# Created: 12-Dec-2003 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias myK*0 K_10 +Alias myantiK*0 anti-K_10 +Alias myRho+ rho+ +Alias myRho- rho- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 myantiK*0 K+ SVS; +Enddecay +# +Decay MyB- +1.0000 myK*0 K- SVS; +Enddecay +# +Decay myK*0 +1.0000 myRho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay myantiK*0 +1.0000 myRho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay myRho- +1.0000 pi- pi0 VSS; +Enddecay +Decay myRho+ +1.0000 pi+ pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_KstarK_1430_spin0.dec b/BaBar_2014/BpBm_KstarK_1430_spin0.dec new file mode 100644 index 0000000..9a8e24f --- /dev/null +++ b/BaBar_2014/BpBm_KstarK_1430_spin0.dec @@ -0,0 +1,37 @@ +##################################################### +# _ # +# B+ -> K^*_0(1430) K+ (100%) + C.C. # +# _ # +# K^*_0(1430) -> pi+ K- (100%) + C.C. # +# # +# Author: J. P. Burke phjpb@SLAC.Stanford.EDU # +# Created: 20-Nov-2003 # +# # +##################################################### +# +Alias myB+ B+ +Alias myB- B- +Alias myK*0 K_0*0 +Alias myantiK*0 anti-K_0*0 +# +Decay Upsilon(4S) +0.5000 myB+ B- VSS; +0.5000 myB- B+ VSS; +Enddecay +# +Decay myB+ +1.0000 myantiK*0 K+ PHSP; +Enddecay +# +Decay myB- +1.0000 myK*0 K- PHSP; +Enddecay +# +Decay myantiK*0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay myK*0 +1.0000 K+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_KstarK_1430_spin2.dec b/BaBar_2014/BpBm_KstarK_1430_spin2.dec new file mode 100644 index 0000000..889e730 --- /dev/null +++ b/BaBar_2014/BpBm_KstarK_1430_spin2.dec @@ -0,0 +1,38 @@ +##################################################### +# _ # +# B+ -> K^*_2(1430) K+ (100%) + C.C. # +# _ # +# K^*_2(1430) -> pi+ K- (100%) + C.C. # +# # +# Author: J. P. Burke phjpb@SLAC.Stanford.EDU # +# Created: 06-Dec-2003 # +# # +##################################################### +# +Alias myB+ B+ +Alias myB- B- +Alias myK*0 K_2*0 +Alias myantiK*0 anti-K_2*0 +# +Decay Upsilon(4S) +0.5000 myB+ B- VSS; +0.5000 myB- B+ VSS; +Enddecay +# +Decay myB+ +1.0000 myantiK*0 K+ STS; +Enddecay +# +Decay myB- +1.0000 myK*0 K- STS; +Enddecay +# +Decay myantiK*0 +1.0000 K- pi+ TSS; +Enddecay +# +Decay myK*0 +1.0000 K+ pi- TSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarK_1680.dec b/BaBar_2014/BpBm_KstarK_1680.dec new file mode 100644 index 0000000..fd3b548 --- /dev/null +++ b/BaBar_2014/BpBm_KstarK_1680.dec @@ -0,0 +1,38 @@ +##################################################### +# _ # +# B+ -> K^*(1680) K+ (100%) + C.C. # +# _ # +# K^*(1680) -> pi+ K- (100%) + C.C. # +# # +# Author: J. P. Burke phjpb@SLAC.Stanford.EDU # +# Created: 06-Dec-2003 # +# # +##################################################### +# +Alias myB+ B+ +Alias myB- B- +Alias myK*0 K''*0 +Alias myanti-K*0 anti-K''*0 +# +Decay Upsilon(4S) +0.5000 myB+ B- VSS; +0.5000 myB- B+ VSS; +Enddecay +# +Decay myB+ +1.0000 myanti-K*0 K+ SVS; +Enddecay +# +Decay myB- +1.0000 myK*0 K- SVS; +Enddecay + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay +# +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay +End + diff --git a/BaBar_2014/BpBm_KstarPi0p_ee_Ball.dec b/BaBar_2014/BpBm_KstarPi0p_ee_Ball.dec new file mode 100644 index 0000000..c8bda12 --- /dev/null +++ b/BaBar_2014/BpBm_KstarPi0p_ee_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(->K+ pi0) mu+ mu- + c.c. # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarPi0p_emmup_PHSP.dec b/BaBar_2014/BpBm_KstarPi0p_emmup_PHSP.dec new file mode 100644 index 0000000..29ec035 --- /dev/null +++ b/BaBar_2014/BpBm_KstarPi0p_emmup_PHSP.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(->K+ pi0) e- mu+ + c.c. # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e- mu+ PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 MyK*- mu- e+ PHOTOS PHSP; +Enddecay +# +Decay MyK*+ +1.0 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarPi0p_epmum_PHSP.dec b/BaBar_2014/BpBm_KstarPi0p_epmum_PHSP.dec new file mode 100644 index 0000000..9c7a70f --- /dev/null +++ b/BaBar_2014/BpBm_KstarPi0p_epmum_PHSP.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(->K+ pi0) e+ mu- + c.c. # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e+ mu- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 MyK*- mu+ e- PHOTOS PHSP; +Enddecay +# +Decay MyK*+ +1.0 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarPi0p_mumu_Ball.dec b/BaBar_2014/BpBm_KstarPi0p_mumu_Ball.dec new file mode 100644 index 0000000..709cc8d --- /dev/null +++ b/BaBar_2014/BpBm_KstarPi0p_mumu_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(->K+ pi0) mu+ mu- + c.c. # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstar_1410_gamma.dec b/BaBar_2014/BpBm_Kstar_1410_gamma.dec new file mode 100644 index 0000000..327c890 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_1410_gamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B+ B-bar + CC # +# | | # +# | -> K*-(1410) gamma # +# | # +# -> X # +# lodovico@slac.stanford.edu # +# # +############################################################################### +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- +# +Decay Upsilon(4S) +0.50000 B- myB+ VSS; +0.50000 B+ myB- VSS; +Enddecay +# +# +Decay myB- +1.0000 K'*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay myB+ +1.0000 K'*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kstar_1680_gamma.dec b/BaBar_2014/BpBm_Kstar_1680_gamma.dec new file mode 100644 index 0000000..8cd5811 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_1680_gamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# Up(4S) -> B+ B-bar + CC # +# | | # +# | -> K-(1680) gamma # +# | # +# -> X # +# # +# lodovico@slac.stanford.edu +############################################################################### +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- +# +Decay Upsilon(4S) +0.50000 B- myB+ VSS; +0.50000 B+ myB- VSS; +Enddecay +# +# +Decay myB- +1.0000 K''*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay myB+ +1.0000 K''*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim.dec b/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim.dec new file mode 100644 index 0000000..ebad546 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B+ -> K*+ K*0bar -> (pi+K0)(K-pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyK*+ MyK*0bar SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_ln.dec b/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_ln.dec new file mode 100644 index 0000000..c694ada --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_ln.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B+ -> K*+ K*0bar -> (pi+K0)(K-pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 MyK*+ MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_tr.dec b/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_tr.dec new file mode 100644 index 0000000..524bd6b --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_K0pipKstar_Kppim_tr.dec @@ -0,0 +1,65 @@ +############################################################ +# # +# Decay: B+ -> K*+ K*0bar -> (pi+K0)(K-pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyK*+ MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim.dec b/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim.dec new file mode 100644 index 0000000..f6e308d --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B+ -> K*+ K*0bar -> (K+pi0)(K-pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyK*+ MyK*0bar SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_ln.dec b/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_ln.dec new file mode 100644 index 0000000..f36c4b8 --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_ln.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B+ -> K*+ K*0bar -> (K+pi0)(K-pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 MyK*+ MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_tr.dec b/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_tr.dec new file mode 100644 index 0000000..41b260b --- /dev/null +++ b/BaBar_2014/BpBm_Kstar_Kppi0Kstar_Kppim_tr.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B+ -> K*+ K*0bar -> (K+pi0)(K-pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyK*+ MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyK*- MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_Kstaree_Ali.dec b/BaBar_2014/BpBm_Kstaree_Ali.dec new file mode 100644 index 0000000..3e307ef --- /dev/null +++ b/BaBar_2014/BpBm_Kstaree_Ali.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(generic) e+ e- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K*+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K*- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstaree_KS0pi_Ali.dec b/BaBar_2014/BpBm_Kstaree_KS0pi_Ali.dec new file mode 100644 index 0000000..3e33551 --- /dev/null +++ b/BaBar_2014/BpBm_Kstaree_KS0pi_Ali.dec @@ -0,0 +1,48 @@ +################################################### +# # +# B+ -> K*+(->K0s pi+) mu+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstaree_Kpi0_Ali.dec b/BaBar_2014/BpBm_Kstaree_Kpi0_Ali.dec new file mode 100644 index 0000000..c8bda12 --- /dev/null +++ b/BaBar_2014/BpBm_Kstaree_Kpi0_Ali.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(->K+ pi0) mu+ mu- + c.c. # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstareta_etaDalitz.dec b/BaBar_2014/BpBm_Kstareta_etaDalitz.dec new file mode 100644 index 0000000..237f9dc --- /dev/null +++ b/BaBar_2014/BpBm_Kstareta_etaDalitz.dec @@ -0,0 +1,47 @@ +################################################### +# # +# Decay: B+ -> K*+ eta + cc,eta->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myEta eta +Alias myK*+ K*+ +Alias myK*- K*- +Alias myKS K_S0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 myK*+ myEta SVS; +Enddecay +# +Decay MyB- +1.0000 myK*- myEta SVS; +Enddecay +# +Decay myK*+ +1.0000 myKS pi+ VSS; +Enddecay +# +Decay myK*- +1.0000 myKS pi- VSS; +Enddecay +# +Decay myKS +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay myEta +1.00 e+ e- gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstarf0_KSpip.dec b/BaBar_2014/BpBm_Kstarf0_KSpip.dec new file mode 100644 index 0000000..637d280 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarf0_KSpip.dec @@ -0,0 +1,78 @@ +############################################################ +# # +# Decay: B+ -> f0 K*+ -> (pi+pi-)(Ks0pi+) # +# Ks0->pi+pi- # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +# patch by Andreas Hoecker (26-Jan-04) # +# patch by Andrei Gritsan (01-Mar-04) back to Ks0->pi+pi- # +# # +############################################################ +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# note: no CPV generated - assumed to be done by +# reweighting after selection +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.50 +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myf_0 f_0 +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyK*+ Myf_0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyK*- Myf_0 SVS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +# not generic decay of KS +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstarf0_KSpipKpKm.dec b/BaBar_2014/BpBm_Kstarf0_KSpipKpKm.dec new file mode 100644 index 0000000..47a9e3f --- /dev/null +++ b/BaBar_2014/BpBm_Kstarf0_KSpipKpKm.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B+ -> f0 K*+ -> (K+K-)(Ks0pi+) # +# Ks0->pi+pi- # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +# patch by Andrei Gritsan (01-Mar-04): # +# ChangeMassMin f_0 # +# # +############################################################ +# +# patch f_0 -> K+K- mass cut off +ChangeMassMin f_0 0.9874 +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myf_0 f_0 +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyK*+ Myf_0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyK*- Myf_0 SVS; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Myf_0 +1.0000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstarf0_Kppi0.dec b/BaBar_2014/BpBm_Kstarf0_Kppi0.dec new file mode 100644 index 0000000..cf61199 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarf0_Kppi0.dec @@ -0,0 +1,62 @@ +################################################### +# # +# B+ -> K*+ f_0 + c.c. # +# | | # +# | -> pi+ pi- # +# | # +# -> K+ pi0 # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# +# BEGIN sp5 patch (01-Mar-04) +# patch by Andreas Hoecker and Andrei Gritsan +# ( +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.50 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myf_0 f_0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyK*+ Myf_0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyK*- Myf_0 SVS; +Enddecay +# +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarf0_Kppi0KpKm.dec b/BaBar_2014/BpBm_Kstarf0_Kppi0KpKm.dec new file mode 100644 index 0000000..5c9bbc4 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarf0_Kppi0KpKm.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Decay: B+ -> f0 K*+ -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# # +# patch by Andrei Gritsan (01-Mar-04): # +# ChangeMassMin f_0 # +# # +############################################################ +# +# patch f_0 -> K+K- mass cut off +ChangeMassMin f_0 0.9874 +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myf_0 f_0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 MyK*+ Myf_0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyK*- Myf_0 SVS; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay Myf_0 +1.0000 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstargamma.dec b/BaBar_2014/BpBm_Kstargamma.dec new file mode 100644 index 0000000..1170c8b --- /dev/null +++ b/BaBar_2014/BpBm_Kstargamma.dec @@ -0,0 +1,31 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | ->K*- gamma # +# | # +# | # +# ->X # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +#force B- to always decay to K*- gamma +# +Decay myB- +1.0000 K*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB+ +1.0000 K*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Kstargamma_Kpi0.dec b/BaBar_2014/BpBm_Kstargamma_Kpi0.dec new file mode 100644 index 0000000..e0d587a --- /dev/null +++ b/BaBar_2014/BpBm_Kstargamma_Kpi0.dec @@ -0,0 +1,43 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | ->K*- gamma # +# | | # +# | ->K- pi0 # +# ->X # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Alias myK*+ K*+ +Alias myK*- K*- +ChargeConj myK*+ myK*- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +#force B- to always decay to K*- gamma +# +Decay myB- +1.0000 myK*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB+ +1.0000 myK*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# force K*- to go to K- pi0 +# +Decay myK*- +1.0000 K- pi0 VSS; +Enddecay +Decay myK*+ +1.0000 K+ pi0 VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstargamma_Kspi.dec b/BaBar_2014/BpBm_Kstargamma_Kspi.dec new file mode 100644 index 0000000..8c553bf --- /dev/null +++ b/BaBar_2014/BpBm_Kstargamma_Kspi.dec @@ -0,0 +1,61 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | ->K*- gamma # +# | | # +# | | # +# ->X ->K_s0 pi- # +# | # +# -> pi+ pi- # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Alias myK*+ K*+ +Alias myK*- K*- +ChargeConj myK*+ myK*- +# +# and for K_S0 +# +Alias myK_S0 K_S0 +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +#force B- to always decay to K*- gamma +# +Decay myB- +1.0000 myK*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB+ +1.0000 myK*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# force K*- to go to Ks0 pi- +# +Decay myK*- +1.0000 myK_S0 pi- VSS; +Enddecay +Decay myK*+ +1.0000 myK_S0 pi+ VSS; +Enddecay +# +# finally, force K0 to always decay to pi+ pi- +# +Decay myK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstarmumu_Ali.dec b/BaBar_2014/BpBm_Kstarmumu_Ali.dec new file mode 100644 index 0000000..ef26adf --- /dev/null +++ b/BaBar_2014/BpBm_Kstarmumu_Ali.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(generic) mu+ mu- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K*+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K*- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstarmumu_KS0pi_Ali.dec b/BaBar_2014/BpBm_Kstarmumu_KS0pi_Ali.dec new file mode 100644 index 0000000..e198ddd --- /dev/null +++ b/BaBar_2014/BpBm_Kstarmumu_KS0pi_Ali.dec @@ -0,0 +1,48 @@ +################################################### +# # +# B+ -> K*+(->K0s pi+) mu+ mu- + c.c. # +# # +# # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# created: 12/Nov/99 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0 pi+ pi- PHSP; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_Kstarmumu_Kpi0_Ali.dec b/BaBar_2014/BpBm_Kstarmumu_Kpi0_Ali.dec new file mode 100644 index 0000000..709cc8d --- /dev/null +++ b/BaBar_2014/BpBm_Kstarmumu_Kpi0_Ali.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(->K+ pi0) mu+ mu- + c.c. # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 MyK*+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 MyK*- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyK*+ +1.0 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarpKs.dec b/BaBar_2014/BpBm_KstarpKs.dec new file mode 100644 index 0000000..02b919c --- /dev/null +++ b/BaBar_2014/BpBm_KstarpKs.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> K*+ K0s + c.c. # +# |-> K0s pi+ # +# # +# Author: Josh Thompson # +# Created: 26 September 2003 # +# # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +Alias MyK*+ K*+ +Alias MyK*- K*- + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*+ MyK_S0 PHSP; +Enddecay +# +Decay MyB- +1.000 MyK*- MyK_S0 PHSP; +Enddecay +# +Decay MyK*+ +1.000 MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +1.000 MyK_S0 pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_KstarpKsKs.dec b/BaBar_2014/BpBm_KstarpKsKs.dec new file mode 100644 index 0000000..8554fd6 --- /dev/null +++ b/BaBar_2014/BpBm_KstarpKsKs.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> K*+ K0s K0s + c.c. # +# |-> K+ pi0 # +# # +# Author: Josh Thompson # +# Created: 17 September 2003 # +# # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +Alias MyK*+ K*+ +Alias MyK*- K*- + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*+ MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyB- +1.000 MyK*- MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstarpf0_Kppi0.dec b/BaBar_2014/BpBm_Kstarpf0_Kppi0.dec new file mode 100644 index 0000000..cabbfbc --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpf0_Kppi0.dec @@ -0,0 +1,47 @@ +################################################### +# # +# B+ -> K*+ f_0 + c.c. # +# | | # +# | -> pi+ pi- # +# | # +# -> K+ pi0 # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myf_0 f_0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyK*+ Myf_0 SVS; +Enddecay +# +Decay MyB- +1.0000 MyK*- Myf_0 SVS; +Enddecay +# +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarpi.dec b/BaBar_2014/BpBm_Kstarpi.dec new file mode 100644 index 0000000..f9eb452 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B- -> K*0 pi- + cc # +# # +# Author: Jim Olsen # +# created: 3/Feb/99 # +# modified: g.london 10/Feb/99 # +################################################### +# +# Decay table for B- -> K*0 pi- using a simple (S)calar to (V)ector-(S)calar +# model. The K*0 decays to K+ pi-. +# +Alias MyB+ B+ +Alias MyB- B- +Alias myK*0 K*0 +Alias myantiK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 myK*0 pi+ SVS; +Enddecay +# +Decay myK*0 +1.00 K+ pi- VSS; +Enddecay +# +Decay MyB- +1.00 myantiK*0 pi- SVS; +Enddecay +# +Decay myantiK*0 +1.00 K- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarpi0_KstarK0spi.dec b/BaBar_2014/BpBm_Kstarpi0_KstarK0spi.dec new file mode 100644 index 0000000..cbb14a2 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi0_KstarK0spi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> K*+ pi0 + c.c. # +# | # +# `--> K0S pi+ # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> K*+ pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K0s pi+ (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*+ pi0 SVS; +Enddecay +# +Decay MyB- +1.000 MyK*- pi0 SVS; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstarpi0_KstarKpi0.dec b/BaBar_2014/BpBm_Kstarpi0_KstarKpi0.dec new file mode 100644 index 0000000..3b66c35 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi0_KstarKpi0.dec @@ -0,0 +1,44 @@ +################################################### +# # +# B+ -> K*+ pi0 + c.c. # +# | # +# `--> K+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> K*+ pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The K*+ decays to K+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyK*+ pi0 SVS; +Enddecay +# +Decay MyB- +1.000 MyK*- pi0 SVS; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstarpi0_pi0Dalitz.dec b/BaBar_2014/BpBm_Kstarpi0_pi0Dalitz.dec new file mode 100644 index 0000000..74d61ca --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi0_pi0Dalitz.dec @@ -0,0 +1,47 @@ +################################################### +# # +# Decay: B+ -> K*+ pi0 + cc,pi0->e+e-gamma # +# # +# Author: Anders Ryd (ryd@slac.stanford.edu) # +# Created: 030414 # +# # +################################################### +# +# +Alias myPi0 pi0 +Alias myK*+ K*+ +Alias myK*- K*- +Alias myKS K_S0 +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 myK*+ myPi0 SVS; +Enddecay +# +Decay MyB- +1.0000 myK*- myPi0 SVS; +Enddecay +# +Decay myK*+ +1.0000 myKS pi+ VSS; +Enddecay +# +Decay myK*- +1.0000 myKS pi- VSS; +Enddecay +# +Decay myKS +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay myPi0 +1.00 e+ e- gamma PI0_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Kstarpi_1270.dec b/BaBar_2014/BpBm_Kstarpi_1270.dec new file mode 100644 index 0000000..2a0b5c2 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi_1270.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B+ -> K_1+ pi0 (50 %) + c.c. # +# | # +# | # +# -> K_10 pi+ (50 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B+ -> K_1 pi +# using a simple (S)calar to (V)ector-(S)calar model. +# The K_1 decays according to the official DECAY.DEC file. +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.5000 K_1+ pi0 SVS; +0.5000 K_10 pi+ SVS; +Enddecay +# +Decay MyB- +0.5000 K_1- pi0 SVS; +0.5000 anti-K_10 pi- SVS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarpi_1400.dec b/BaBar_2014/BpBm_Kstarpi_1400.dec new file mode 100644 index 0000000..1b17bf2 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi_1400.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B+ -> K'_1+ pi0 (50 %) + c.c. # +# | # +# | # +# -> K'_10 pi+ (50 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B+ -> K'_1 pi +# using a simple (S)calar to (V)ector-(S)calar model. +# The K'_1 decays according to the official DECAY.DEC file. +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.5000 K'_1+ pi0 SVS; +0.5000 K'_10 pi+ SVS; +Enddecay +# +Decay MyB- +0.5000 K'_1- pi0 SVS; +0.5000 anti-K'_10 pi- SVS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarpi_1430_spin0.dec b/BaBar_2014/BpBm_Kstarpi_1430_spin0.dec new file mode 100644 index 0000000..d91fc5d --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi_1430_spin0.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B+ -> K_0*+ pi0 (33.33 %) + c.c. # +# | # +# | # +# -> K_0*0 pi+ (66.67 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 7/Oct/2002 # +# # +################################################### +# +# Decay table for B+ -> K_0* pi +# using a simple phase-space model. +# The K_0* decays according to the official DECAY.DEC file. +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.3333 K_0*+ pi0 PHSP; +0.6667 K_0*0 pi+ PHSP; +Enddecay +# +Decay MyB- +0.3333 K_0*- pi0 PHSP; +0.6667 anti-K_0*0 pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarpi_1430_spin2.dec b/BaBar_2014/BpBm_Kstarpi_1430_spin2.dec new file mode 100644 index 0000000..25ce458 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi_1430_spin2.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B+ -> K_2*+ pi0 (50 %) + c.c. # +# | # +# | # +# -> K_2*0 pi+ (50 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B+ -> K_2* pi +# using a simple (S)calar to (T)ensor-(S)calar model. +# The K_2* decays according to the official DECAY.DEC file. +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.5000 K_2*+ pi0 STS; +0.5000 K_2*0 pi+ STS; +Enddecay +# +Decay MyB- +0.5000 K_2*- pi0 STS; +0.5000 anti-K_2*0 pi- STS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarpi_1680.dec b/BaBar_2014/BpBm_Kstarpi_1680.dec new file mode 100644 index 0000000..14b6ce1 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpi_1680.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B+ -> K''*+ pi0 (50 %) + c.c. # +# | # +# | # +# -> K''*0 pi+ (50 %) # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B+ -> K''* pi +# using a simple (S)calar to (V)ector-(S)calar model. +# The K''* decays according to the official DECAY.DEC file. +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +0.5000 K''*+ pi0 SVS; +0.5000 K''*0 pi+ SVS; +Enddecay +# +Decay MyB- +0.5000 K''*- pi0 SVS; +0.5000 anti-K''*0 pi- SVS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstarpnunu.dec b/BaBar_2014/BpBm_Kstarpnunu.dec new file mode 100644 index 0000000..21d1108 --- /dev/null +++ b/BaBar_2014/BpBm_Kstarpnunu.dec @@ -0,0 +1,37 @@ +################################################################### +# B+ --> K*+ nu nubar, B- - > generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: R.V. Kowalewski 11/22/01 # +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 K*+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyB- +1.0000 K*- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +End + + + diff --git a/BaBar_2014/BpBm_Kstarrho_1680_Kpi_ln.dec b/BaBar_2014/BpBm_Kstarrho_1680_Kpi_ln.dec new file mode 100644 index 0000000..64bdb1b --- /dev/null +++ b/BaBar_2014/BpBm_Kstarrho_1680_Kpi_ln.dec @@ -0,0 +1,68 @@ +################################################### +# # +# B+ -> K''*+ rho0 (50 %) + c.c. # +# | | # +# | -> K+ pi0 # +# | # +# | # +# -> K''*0 rho+ (50 %) # +# | # +# -> K+ pi- # +# # +# Longitudinal polarisation only. # +# # +# Author: Jan Stark stark@in2p3.fr # +# Created: 12/Sep/2002 # +# # +################################################### +# +# Decay table for B+ -> K''* rho +# using a simple (S)calar to (V)ector-(S)calar model. +# The K''* only decays to K+/- pi0 and K+/- pi-/+. +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK''*+ K''*+ +Alias MyK''*- K''*- +Alias MyK''*0 K''*0 +Alias Myanti-K''*0 anti-K''*0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# We want as much K''*+ rho0 as K''*0 rho+. +# But BR(K''*+ -> K+ pi0) is half of BR(K''*0 -> K+ pi-), +# so we use a one third probability for B+ -> K''*+ rho0 +# and a two thirds probability for B+ -> K''*0 rho+. +# +Decay MyB+ +0.3333 rho0 MyK''*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.6667 rho+ MyK''*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +0.3333 rho0 MyK''*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +0.6667 rho- Myanti-K''*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +# +Decay MyK''*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK''*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyK''*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K''*0 +1.0000 K- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstgamma.dec b/BaBar_2014/BpBm_Kstgamma.dec new file mode 100644 index 0000000..4157409 --- /dev/null +++ b/BaBar_2014/BpBm_Kstgamma.dec @@ -0,0 +1,63 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | ->K*- gamma # +# | | # +# | ->K- pi0 # +# ->X K_s0 pi- # +# | # +# -> pi+ pi- # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Alias myK*+ K*+ +Alias myK*- K*- +ChargeConj myK*+ myK*- +# +# and for K0 +# +Alias myantiK0 anti-K0 +Alias myK0 K0 +ChargeConj myK0 myantiK0 +# +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +#force B- to always decay to K*- gamma +# +Decay myB- +1.0000 myK*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB+ +1.0000 myK*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# force K*- to go to K- pi0 and to K0 pi- +# +Decay myK*- +0.6660 myantiK0 pi- VSS; +0.3330 K- pi0 VSS; +Enddecay +Decay myK*+ +0.6660 myK0 pi+ VSS; +0.3330 K+ pi0 VSS; +Enddecay +# +# finally, force K0 to always decay to pi+ pi- +# +Decay myantiK0 +1.0000 pi+ pi- PHSP; +Enddecay +Decay myK0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Kstgamma_KL.dec b/BaBar_2014/BpBm_Kstgamma_KL.dec new file mode 100644 index 0000000..3b23695 --- /dev/null +++ b/BaBar_2014/BpBm_Kstgamma_KL.dec @@ -0,0 +1,52 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | ->K*- gamma # +# | | # +# | ->K-L0 pi- # +# ->X # +# # +# Responsible: R. Baldini # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Alias myK*+ K*+ +Alias myK*- K*- +ChargeConj myK*+ myK*- +# +# and for K0 +# +Alias myantiK0 anti-K0 +Alias myK0 K0 +ChargeConj myK0 myantiK0 +# +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +#force B- to always decay to K*- gamma +# +Decay myB- +1.0000 myK*- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB+ +1.0000 myK*+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +# force K*- to always go to K_L0 + charged pi +# +Decay myK*- +1.0 K_L0 pi- VSS; +Enddecay +Decay myK*+ +1.0 K_L0 pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_OmegaPipPi0_PiPiPi0.dec b/BaBar_2014/BpBm_OmegaPipPi0_PiPiPi0.dec new file mode 100644 index 0000000..130b58c --- /dev/null +++ b/BaBar_2014/BpBm_OmegaPipPi0_PiPiPi0.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> omega pi+ pi0 +cc (omega -> pi+ pi- pi0) # +# # +# Author: S. EMERY # +# created: 23/07/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyOm omega + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 MyOm pi+ pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 MyOm pi- pi0 PHSP; +Enddecay + + +Decay MyOm +1.0000 pi+ pi- pi0 OMEGA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_PiPiPiPi0.dec b/BaBar_2014/BpBm_PiPiPiPi0.dec new file mode 100644 index 0000000..a74c1df --- /dev/null +++ b/BaBar_2014/BpBm_PiPiPiPi0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> pi+ pi+ pi- pi0 +cc # +# # +# Author: S. Emery # +# created: 23/07/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 pi+ pi- pi+ pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 pi- pi+ pi- pi0 PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BpBm_Pif0.dec b/BaBar_2014/BpBm_Pif0.dec new file mode 100644 index 0000000..bcf160c --- /dev/null +++ b/BaBar_2014/BpBm_Pif0.dec @@ -0,0 +1,35 @@ +################################################### +# # +# B+ -> pi+ f0 + C.C. # +# | # +# `--> pi+ pi- # +# # +# Author: Huw Shorthouse H.Shorthouse@qmw.ac.uk # +# Created: 14/Jun/00 # +# # +################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf_0 f_0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ Myf_0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- Myf_0 PHSP; +Enddecay +# +Decay Myf_0 +1.00 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/BpBm_Pipnunu.dec b/BaBar_2014/BpBm_Pipnunu.dec new file mode 100644 index 0000000..864c7c9 --- /dev/null +++ b/BaBar_2014/BpBm_Pipnunu.dec @@ -0,0 +1,35 @@ +################################################################### +# B+ --> pi+ nu nubar, B- - > generic # +# # +# # +# # +# # +# # +# +cc # +# # +# Author: Paul D. Jackson 8/14/02 # +# Mail: JACK@SLAC.STANFORD.EDU +################################################################### +# +# +# Alias particles for specific decays +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ +1.0000 pi+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyB- +1.0000 pi- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_Psi2sK.dec b/BaBar_2014/BpBm_Psi2sK.dec new file mode 100644 index 0000000..bfc3ab2 --- /dev/null +++ b/BaBar_2014/BpBm_Psi2sK.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B- -> Psi2s K-, B+ -> X # +# |-->mu+mu-/e+e- [15% + 15% (VLL)] # +# | # +# |-->J/psi pi+pi- [70% (VVPIPI)] # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# + cc # +# # +# Author: M. Milek # +# Mail: MILEK@SLAC.STANFORD.EDU +# Created: 30 Nov 99 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Mypsi(2S) K+ SVS; +Enddecay +# +Decay MyB- +1.0000 Mypsi(2S) K- SVS; +Enddecay +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi2sK_All.dec b/BaBar_2014/BpBm_Psi2sK_All.dec new file mode 100644 index 0000000..c3c0b32 --- /dev/null +++ b/BaBar_2014/BpBm_Psi2sK_All.dec @@ -0,0 +1,34 @@ +############################################################ +# # +# Decay: B- -> psi(2s) K-, B+ -> X # +# |-> X # +# # +# # +# + cc # +# # +# Author: R. Faccini # +# Created: 14/Aug/01 # +# Mail: rfaccini@SLAC.STANFORD.EDU +############################################################ +# +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 psi(2S) K+ SVS; +Enddecay +# +Decay MyB- +1.0000 psi(2S) K- SVS; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_Psi2sK_Psi2stoJpsiPi0Pi0.dec b/BaBar_2014/BpBm_Psi2sK_Psi2stoJpsiPi0Pi0.dec new file mode 100644 index 0000000..d024e3e --- /dev/null +++ b/BaBar_2014/BpBm_Psi2sK_Psi2stoJpsiPi0Pi0.dec @@ -0,0 +1,43 @@ +############################################################# +# # +# Decay: B- -> Psi2s K-, B+ -> X # +# | # +# |-->J/psi pi0 pi0 [100% (VVPIPI)] # +# | # +# |-->mu+mu-/e+e- [50%/50% (PHOTOS VLL)] # +# # +# # +# + cc # +# # +# Author: S. Passaggio 06/02/2001 # +# (from analogous decay file by M. Milek) # +############################################################# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 Mypsi(2S) K+ SVS; +Enddecay +# +Decay MyB- +1.0000 Mypsi(2S) K- SVS; +Enddecay +# +Decay Mypsi(2S) +1.000 MyJ/psi pi0 pi0 VVPIPI; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi2sKstar_K.dec b/BaBar_2014/BpBm_Psi2sKstar_K.dec new file mode 100644 index 0000000..6bfba27 --- /dev/null +++ b/BaBar_2014/BpBm_Psi2sKstar_K.dec @@ -0,0 +1,81 @@ +################################################################### +# B- --> psi2s K*- B+ --> Generic # +# | |-->K- pi0 # +# | # +# | # +# | # +# |-->mu+mu-/e+e- [15% + 15% (VLL)] # +# | # +# |-->J/psi pi+pi- [70% (VVPIPI)] # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# + cc # +# # +# B decay: phase space. # +# # +# Author: R. Faccini 30 Nov 1999 # +# Mail: RFACCINI@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays: +# ------------------------------------ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mypsi(2S) MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyB+ +1.000 Mypsi(2S) MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi2sKstar_KS.dec b/BaBar_2014/BpBm_Psi2sKstar_KS.dec new file mode 100644 index 0000000..55c9fd3 --- /dev/null +++ b/BaBar_2014/BpBm_Psi2sKstar_KS.dec @@ -0,0 +1,85 @@ +################################################################### +# B- --> psi2s K*- B+ --> Generic # +# | |-->K0s pi+ # +# | | # +# | |--> pi+pi- # +# | # +# |-->mu+mu-/e+e- [15% + 15% (VLL)] # +# | # +# |-->J/psi pi+pi- [70% (VVPIPI)] # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# + cc # +# # +# B decay: phase space. # +# # +# Author: M. Verderi 04Nov99 # +# Mail: VERDERI@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +################################################################### +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes: +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# put the values measured by Babar (see BAD #35 and #154) +Define Hplus 0.159 +Define Hzero 0.775 +Define Hminus 0.612 +Define phHplus 1.563 +Define phHzero 0.0 +Define phHminus 2.712 +# +# Alias particles for specific decays: +# ------------------------------------ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias Mypsi(2S) psi(2S) +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mypsi(2S) MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyB+ +1.000 Mypsi(2S) MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Mypsi(2S) +#0.700 MyJ/psi pi+ pi- PHSP; +0.700 MyJ/psi pi+ pi- VVPIPI; +0.150 e+ e- PHOTOS VLL; +0.150 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi2sKstar_KpPi0_RunIpIIPol.dec b/BaBar_2014/BpBm_Psi2sKstar_KpPi0_RunIpIIPol.dec new file mode 100644 index 0000000..db28617 --- /dev/null +++ b/BaBar_2014/BpBm_Psi2sKstar_KpPi0_RunIpIIPol.dec @@ -0,0 +1,69 @@ +#################################################################### +# B- --> psi2s K*- B+ --> Generic # +# | |-->K- pi0 # +# | # +# | # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: R. Faccini 30 Nov 1999 # +# Mail: RFACCINI@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +# Made from B+B-_Psi2sKstar_K.dec, updated with runI+II # +# J/Psi K* polarisation. Marc Verderi, Philippe Grenier 01 Jun 2004# +# Only Psi2s decay to leptons # +#################################################################### +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# Alias particles for specific decays: +# ------------------------------------ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias Mypsi(2S) psi(2S) +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mypsi(2S) MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyB+ +1.000 Mypsi(2S) MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Mypsi(2S) +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi2sKstar_KsPip_RunIpIIPol.dec b/BaBar_2014/BpBm_Psi2sKstar_KsPip_RunIpIIPol.dec new file mode 100644 index 0000000..e0c66de --- /dev/null +++ b/BaBar_2014/BpBm_Psi2sKstar_KsPip_RunIpIIPol.dec @@ -0,0 +1,77 @@ +#################################################################### +# B- --> psi2s K*- B+ --> Generic # +# | |-->K0s pi+ # +# | | # +# | |--> pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# # +# + cc # +# # +# # +# Author: M. Verderi 04Nov99 # +# Mail: VERDERI@SLAC.STANFORD.EDU # +# Modified: P. Grenier 17/12/2002 GRENIER@SLAC.STANFORD.EDU # +# Made from B+B-_Psi2sKstar_KS.dec, updated with runI+II # +# J/Psi K* polarisation. Marc Verderi, Philippe Grenier 01 Jun 2004# +# Only Psi2s decay to leptons # +#################################################################### +# +# +# +# Define the helicity amplitudes starting from the transversity amplitudes: +# ------------------------------------------------------------------------- +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero/sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Values measured by Babar run I+II (BAD#673/752): +Define Hplus 0.6301 +Define Hzero 0.7523 +Define Hminus 0.1924 +Define phHplus 3.246 +Define phHzero 0.000 +Define phHminus 4.924 +# +# +# Alias particles for specific decays: +# ------------------------------------ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias Mypsi(2S) psi(2S) +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB- +1.000 Mypsi(2S) MyKstar- SVV_HELAMP Hminus phHminus Hzero phHzero Hplus phHplus; +Enddecay +# +Decay MyB+ +1.000 Mypsi(2S) MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay Mypsi(2S) +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi3770D0D0KpiK3pi_K.dec b/BaBar_2014/BpBm_Psi3770D0D0KpiK3pi_K.dec new file mode 100644 index 0000000..74b64d7 --- /dev/null +++ b/BaBar_2014/BpBm_Psi3770D0D0KpiK3pi_K.dec @@ -0,0 +1,126 @@ +################################################################### +# B+ --> psi(3770) K+ B- --> Generic # +# | # +# | # +# |-->D0 D0B # +# # +# D0 -> K- pi+ # +# D0B -> K+ pi- pi- pi+ # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D0D0 K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bk3pi VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi3770D0D0KpiKpi_K.dec b/BaBar_2014/BpBm_Psi3770D0D0KpiKpi_K.dec new file mode 100644 index 0000000..c30c6b1 --- /dev/null +++ b/BaBar_2014/BpBm_Psi3770D0D0KpiKpi_K.dec @@ -0,0 +1,126 @@ +################################################################### +# B+ --> psi(3770) K+ B- --> Generic # +# | # +# | # +# |-->D0 D0B # +# # +# D0 -> K- pi+ # +# D0B -> K+ pi- # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D0D0 K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bkpi VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi3770D0D0KpiKpipi0_K.dec b/BaBar_2014/BpBm_Psi3770D0D0KpiKpipi0_K.dec new file mode 100644 index 0000000..01e8854 --- /dev/null +++ b/BaBar_2014/BpBm_Psi3770D0D0KpiKpipi0_K.dec @@ -0,0 +1,126 @@ +################################################################### +# B+ --> psi(3770) K+ B- --> Generic # +# | # +# | # +# |-->D0 D0B # +# # +# D0 -> K- pi+ # +# D0B -> K+ pi- pi0 # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D0D0 K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bkpipi0 VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Psi3770DpDm_K.dec b/BaBar_2014/BpBm_Psi3770DpDm_K.dec new file mode 100644 index 0000000..161b3c9 --- /dev/null +++ b/BaBar_2014/BpBm_Psi3770DpDm_K.dec @@ -0,0 +1,130 @@ +################################################################### +# B+ --> psi(3770) K+ B- --> Generic # +# | # +# | # +# |-->D+ D- # +# # +# D+ -> K- pi+ pi+ # +# D- -> K+ pi- pi- # +# # +# Author: V. Poireau 30/1/04 # +################################################################### +# +####################################################### +# The MyPsi list +####################################################### +Alias MyPsi_D0D0 psi(3770) +Alias MyPsi_D+D- psi(3770) +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +# +# +# +Decay Upsilon(4S) +1.000 MyB+ B- VSS; +Enddecay +# +Decay MyB+ +1.000 MyPsi_D+D- K+ SVS; +Enddecay +CDecay MyB- +# +Decay MyPsi_D0D0 +1.000 MyD0kpi MyD0Bk3pi VSS; +Enddecay +# +Decay MyPsi_D+D- +1.000 MyD+ MyD- VSS; +Enddecay +# +# +# +Decay MyD- +1.000 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0kpi +1.000 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +1.000 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_Rho0Rho0K.dec b/BaBar_2014/BpBm_Rho0Rho0K.dec new file mode 100644 index 0000000..ae6420c --- /dev/null +++ b/BaBar_2014/BpBm_Rho0Rho0K.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B+ -> rho0 rho0 K+ +cc # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 rho0 rho0 K+ PHSP; +Enddecay + +Decay MyB- +1.0000 rho0 rho0 K- PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Rho0Rho0Pi.dec b/BaBar_2014/BpBm_Rho0Rho0Pi.dec new file mode 100644 index 0000000..4ef85cb --- /dev/null +++ b/BaBar_2014/BpBm_Rho0Rho0Pi.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B+ -> rho0 rho0 pi+ +cc # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 rho0 rho0 pi+ PHSP; +Enddecay + + +Decay MyB- +1.0000 rho0 rho0 pi- PHSP; +Enddecay + + +End + diff --git a/BaBar_2014/BpBm_RhoRhoK.dec b/BaBar_2014/BpBm_RhoRhoK.dec new file mode 100644 index 0000000..e61667b --- /dev/null +++ b/BaBar_2014/BpBm_RhoRhoK.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> rho- rho+ K+ +cc # +# # +# Author: G. Schott # +# created: 30/05/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 rho+ rho- K+ PHSP; +1.0000 rho+ rho+ K- PHSP; +Enddecay + +Decay MyB- +1.0000 rho- rho- K+ PHSP; +1.0000 rho- rho+ K- PHSP; +Enddecay + + +End + diff --git a/BaBar_2014/BpBm_RhopRhoppim.dec b/BaBar_2014/BpBm_RhopRhoppim.dec new file mode 100644 index 0000000..02b3737 --- /dev/null +++ b/BaBar_2014/BpBm_RhopRhoppim.dec @@ -0,0 +1,26 @@ +################################################### +# # +# Decay: B+ -> rho+ rho+ pi- + cc # +# # +# Author: S. Emery # +# Created: 23/07/03 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 rho+ rho+ pi- PHSP; +Enddecay + +Decay MyB- +1.0000 rho- rho- pi+ PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Rhopf0.dec b/BaBar_2014/BpBm_Rhopf0.dec new file mode 100644 index 0000000..38ae2c1 --- /dev/null +++ b/BaBar_2014/BpBm_Rhopf0.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B+ -> rho+ f_0 + c.c. # +# | # +# -> pi+ pi- # +# # +# # +# # +# Author: Gregory Schott schott@in2p3.fr # +# Created: 13/Feb/2004 # +# # +################################################### +# +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf_0 f_0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 rho+ Myf_0 SVS; +Enddecay +# +Decay MyB- +1.0000 rho- Myf_0 SVS; +Enddecay +# +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_Rhoppippimpi0.dec b/BaBar_2014/BpBm_Rhoppippimpi0.dec new file mode 100644 index 0000000..7074a47 --- /dev/null +++ b/BaBar_2014/BpBm_Rhoppippimpi0.dec @@ -0,0 +1,26 @@ +################################################### +# # +# Decay: B+ -> rho+ pi+ pi- pi0 + cc # +# # +# Author: S. Emery # +# Created: 23/07/03 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 rho+ pi+ pi- pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 rho- pi- pi+ pi0 PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_V0PPP.dec b/BaBar_2014/BpBm_V0PPP.dec new file mode 100644 index 0000000..b7df1c1 --- /dev/null +++ b/BaBar_2014/BpBm_V0PPP.dec @@ -0,0 +1,92 @@ +################################################### +# # +# Decay: B+ -> V0 h+ h- h+ / V0 h+ pi0 pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar anti-K*0 + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 rho0 pi+ pi0 pi0 PHSP; +1.0000 MyK*0 pi+ pi0 pi0 PHSP; +1.0000 MyK*0bar pi+ pi0 pi0 PHSP; +1.0000 rho0 K+ pi0 pi0 PHSP; +1.0000 MyK*0 K+ pi0 pi0 PHSP; +1.0000 MyK*0bar K+ pi0 pi0 PHSP; + +1.0000 rho0 pi+ pi+ pi- PHSP; +1.0000 rho0 K+ pi+ pi- PHSP; +1.0000 rho0 pi+ pi+ K- PHSP; +1.0000 rho0 K+ K+ pi- PHSP; +1.0000 rho0 K+ pi+ K- PHSP; +#1.0000 rho0 K+ K+ K- PHSP; + +1.0000 MyK*0 pi+ pi+ pi- PHSP; +1.0000 MyK*0 K+ pi+ pi- PHSP; +1.0000 MyK*0 pi+ pi+ K- PHSP; +#1.0000 MyK*0 K+ K+ pi- PHSP; +#1.0000 MyK*0 K+ pi+ K- PHSP; +#1.0000 MyK*0 K+ K+ K- PHSP; + +1.0000 MyK*0bar pi+ pi+ pi- PHSP; +1.0000 MyK*0bar K+ pi+ pi- PHSP; +1.0000 MyK*0bar pi+ pi+ K- PHSP; +#1.0000 MyK*0bar K+ K+ pi- PHSP; +#1.0000 MyK*0bar K+ pi+ K- PHSP; +#1.0000 MyK*0bar K+ K+ K- PHSP; +Enddecay + +Decay MyB- +1.0000 rho0 pi- pi0 pi0 PHSP; +1.0000 MyK*0 pi- pi0 pi0 PHSP; +1.0000 MyK*0bar pi- pi0 pi0 PHSP; +1.0000 rho0 K- pi0 pi0 PHSP; +1.0000 MyK*0 K- pi0 pi0 PHSP; +1.0000 MyK*0bar K- pi0 pi0 PHSP; + +1.0000 rho0 pi+ pi- pi- PHSP; +1.0000 rho0 K+ pi- pi- PHSP; +1.0000 rho0 pi+ pi- K- PHSP; +1.0000 rho0 K+ K- pi- PHSP; +1.0000 rho0 K- pi+ K- PHSP; +#1.0000 rho0 K+ K- K- PHSP; + +1.0000 MyK*0 pi+ pi- pi- PHSP; +1.0000 MyK*0 K+ pi- pi- PHSP; +1.0000 MyK*0 pi+ pi- K- PHSP; +#1.0000 MyK*0 K+ K- pi- PHSP; +#1.0000 MyK*0 K- pi+ K- PHSP; +#1.0000 MyK*0 K+ K- K- PHSP; + +1.0000 MyK*0bar pi+ pi- pi- PHSP; +1.0000 MyK*0bar K+ pi- pi- PHSP; +1.0000 MyK*0bar pi+ pi- K- PHSP; +#1.0000 MyK*0bar K+ K- pi- PHSP; +#1.0000 MyK*0bar K- pi+ K- PHSP; +#1.0000 MyK*0bar K- K+ K- PHSP; +Enddecay + + +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay + + +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay + +End diff --git a/BaBar_2014/BpBm_VpPPP.dec b/BaBar_2014/BpBm_VpPPP.dec new file mode 100644 index 0000000..934ee76 --- /dev/null +++ b/BaBar_2014/BpBm_VpPPP.dec @@ -0,0 +1,72 @@ +################################################### +# # +# Decay: B+ -> V+ h- h+ pi0 # +# # +# Author: G. Schott # +# Created: 30/5/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +Decay MyB+ +1.0000 rho+ pi- pi+ pi0 PHSP; +1.0000 rho+ K- pi+ pi0 PHSP; +1.0000 rho+ pi- K+ pi0 PHSP; +1.0000 rho+ K- K+ pi0 PHSP; + +1.0000 rho- pi+ pi+ pi0 PHSP; +1.0000 rho- K+ pi+ pi0 PHSP; +1.0000 rho- K+ K+ pi0 PHSP; + +1.0000 MyK*+ pi- pi+ pi0 PHSP; +1.0000 MyK*+ K- pi+ pi0 PHSP; +1.0000 MyK*+ pi- K+ pi0 PHSP; +#1.0000 MyK*+ K- K+ pi0 PHSP; + +1.0000 MyK*- pi+ pi+ pi0 PHSP; +1.0000 MyK*- K+ pi+ pi0 PHSP; +#1.0000 MyK*- K+ K+ pi0 PHSP; +Enddecay + +Decay MyB- +1.0000 rho- pi- pi+ pi0 PHSP; +1.0000 rho- K- pi+ pi0 PHSP; +1.0000 rho- pi- K+ pi0 PHSP; +1.0000 rho- K- K+ pi0 PHSP; + +1.0000 rho+ pi- pi- pi0 PHSP; +1.0000 rho+ K- pi- pi0 PHSP; +1.0000 rho+ K- K- pi0 PHSP; + +1.0000 MyK*- pi- pi+ pi0 PHSP; +1.0000 MyK*- K- pi+ pi0 PHSP; +1.0000 MyK*- pi- K+ pi0 PHSP; +#1.0000 MyK*- K- K+ pi0 PHSP; + +1.0000 MyK*+ pi- pi- pi0 PHSP; +1.0000 MyK*+ K- pi- pi0 PHSP; +#1.0000 MyK*+ K- K- pi0 PHSP; +Enddecay + + +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay + + +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay + +End diff --git a/BaBar_2014/BpBm_XdugammaExp480.dec b/BaBar_2014/BpBm_XdugammaExp480.dec new file mode 100644 index 0000000..dd33b37 --- /dev/null +++ b/BaBar_2014/BpBm_XdugammaExp480.dec @@ -0,0 +1,78 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xdu or +# anti-Xdu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xdu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xdu 3*Charge: +JetSetPar KCHG(459,1)=3 +# Set Xdu color information: +JetSetPar KCHG(459,2)=0 +# Set Xdu particle/antiparticle distinction: +JetSetPar KCHG(459,3)=1 +# Set Xdu mass: +JetSetPar PMAS(459,1)=1.600 +# Set Xdu width (sigma): +JetSetPar PMAS(459,2)=0.500 +# Set Xdu truncation: +JetSetPar PMAS(459,3)=2.000 +# Set Xdu name: +JetSetPar CHAF(459)=Xdu +# Set Xdu so it can decay: +JetSetPar MDCY(459,1)=1 +# Set decay table entry pt for Xdu: +JetSetPar MDCY(459,2)=1158 +# Number of decay channels for Xdu: +JetSetPar MDCY(459,3)=1 +# Switch on Xdu decay +JetSetPar MDME(1158,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1158,2)=11 +# Xdu decays into two quarks a u and an anti-s +JetSetPar KFDP(1158,1)=-1 +JetSetPar KFDP(1158,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xdu gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xdu gamma BTOXSGAMMA 2 1 5.27885 4.8 4.8 -0.3 0.9 0.0841 100 80; +Enddecay + +Decay Xdd +1.00000 d anti-d JETSET 11; +Enddecay + +Decay anti-Xdd +1.00000 anti-d d JETSET 11; +Enddecay + +Decay Xdu +1.00000 u anti-d JETSET 11; +Enddecay + +Decay anti-Xdu +1.00000 anti-u d JETSET 11; +Enddecay + + +End + + diff --git a/BaBar_2014/BpBm_Xenu_Yenu.dec b/BaBar_2014/BpBm_Xenu_Yenu.dec new file mode 100644 index 0000000..c3f4c98 --- /dev/null +++ b/BaBar_2014/BpBm_Xenu_Yenu.dec @@ -0,0 +1,203 @@ +############################################################################### +# Decay file for Y(4S) -> B+ B- +# | | +# | --> X e nu +# -----> Y e nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Last change 15 Oct 2000 +############################################################################### + +## define aliases with restricted decay modes (which are specified below) + +Alias B+_SL-e B+ +Alias B+_SL-mu B+ + +Alias B-_SL-e B- +Alias B-_SL-mu B- + +## define charge conjugate relationships between aliases + +ChargeConj B+_SL-e B-_SL-e +ChargeConj B+_SL-mu B-_SL-mu + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 1.0 B+_SL-e B-_SL-e VSS; +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-e + +# b -> c e+ nu (10.4%) + +0.0490 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0891%) + +0.000032 pi0 e+ nu_e PHOTOS ISGW2; +0.000012 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000020 eta' e+ nu_e PHOTOS ISGW2; +0.000137 a_10 e+ nu_e PHOTOS ISGW2; +0.000080 b_10 e+ nu_e PHOTOS ISGW2; +0.000012 a_00 e+ nu_e PHOTOS ISGW2; +0.000006 f_0 e+ nu_e PHOTOS ISGW2; +0.000006 f'_0 e+ nu_e PHOTOS ISGW2; +0.000068 f_1 e+ nu_e PHOTOS ISGW2; +0.000068 f'_1 e+ nu_e PHOTOS ISGW2; +0.000040 h_1 e+ nu_e PHOTOS ISGW2; +0.000040 h'_1 e+ nu_e PHOTOS ISGW2; +0.000060 f_2 e+ nu_e PHOTOS ISGW2; +0.000060 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-mu + +# b -> c mu+ nu (10.4%) + +0.0490 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0891%) + +0.000032 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000012 eta mu+ nu_mu PHOTOS ISGW2; +0.000125 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000125 omega mu+ nu_mu PHOTOS ISGW2; +0.000020 eta' mu+ nu_mu PHOTOS ISGW2; +0.000137 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000080 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000012 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000006 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000068 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000060 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-e + +# b -> c e- nu (10.4%) + +0.0490 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0070 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0070 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0891%) + +0.000032 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000012 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000020 eta' e- anti-nu_e PHOTOS ISGW2; +0.000137 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000080 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000012 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000006 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000006 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000068 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000068 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000060 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000060 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-mu + +# b -> c mu- nu (10.4%) + +0.0490 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0891%) + +0.000032 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000125 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000125 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000020 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000137 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000080 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Xenu_Ymunu.dec b/BaBar_2014/BpBm_Xenu_Ymunu.dec new file mode 100644 index 0000000..ef6d2b6 --- /dev/null +++ b/BaBar_2014/BpBm_Xenu_Ymunu.dec @@ -0,0 +1,204 @@ +############################################################################### +# Decay file for Y(4S) -> B+ B- (and C.C.) +# | | +# | --> X mu nu +# -----> Y e nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Last change 15 Oct 2000 +############################################################################### + +## define aliases with restricted decay modes (which are specified below) + +Alias B+_SL-e B+ +Alias B+_SL-mu B+ + +Alias B-_SL-e B- +Alias B-_SL-mu B- + +## define charge conjugate relationships between aliases + +ChargeConj B+_SL-e B-_SL-e +ChargeConj B+_SL-mu B-_SL-mu + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.5 B+_SL-e B-_SL-mu VSS; + 0.5 B+_SL-mu B-_SL-e VSS; +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-e + +# b -> c e+ nu (10.4%) + +0.0490 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0891%) + +0.000032 pi0 e+ nu_e PHOTOS ISGW2; +0.000012 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000020 eta' e+ nu_e PHOTOS ISGW2; +0.000137 a_10 e+ nu_e PHOTOS ISGW2; +0.000080 b_10 e+ nu_e PHOTOS ISGW2; +0.000012 a_00 e+ nu_e PHOTOS ISGW2; +0.000006 f_0 e+ nu_e PHOTOS ISGW2; +0.000006 f'_0 e+ nu_e PHOTOS ISGW2; +0.000068 f_1 e+ nu_e PHOTOS ISGW2; +0.000068 f'_1 e+ nu_e PHOTOS ISGW2; +0.000040 h_1 e+ nu_e PHOTOS ISGW2; +0.000040 h'_1 e+ nu_e PHOTOS ISGW2; +0.000060 f_2 e+ nu_e PHOTOS ISGW2; +0.000060 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-mu + +# b -> c mu+ nu (10.4%) + +0.0490 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0891%) + +0.000032 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000012 eta mu+ nu_mu PHOTOS ISGW2; +0.000125 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000125 omega mu+ nu_mu PHOTOS ISGW2; +0.000020 eta' mu+ nu_mu PHOTOS ISGW2; +0.000137 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000080 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000012 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000006 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000068 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000060 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-e + +# b -> c e- nu (10.4%) + +0.0490 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0070 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0070 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0891%) + +0.000032 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000012 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000020 eta' e- anti-nu_e PHOTOS ISGW2; +0.000137 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000080 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000012 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000006 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000006 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000068 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000068 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000060 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000060 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-mu + +# b -> c mu- nu (10.4%) + +0.0490 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0891%) + +0.000032 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000125 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000125 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000020 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000137 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000080 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Xenu_noSLemu.dec b/BaBar_2014/BpBm_Xenu_noSLemu.dec new file mode 100644 index 0000000..60d8a3d --- /dev/null +++ b/BaBar_2014/BpBm_Xenu_noSLemu.dec @@ -0,0 +1,576 @@ +############################################################################### +# Decay file for Y(4S) -> B+ B- (and C.C.) +# | | +# | --> X e nu +# -----> non-SL +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Last change 15 Nov 1999 +############################################################################### + +## define aliases with restricted decay modes (which are specified below) + +Alias B+_SL-e B+ +Alias B+_SL-mu B+ +Alias B+_no-SL B+ + +Alias B-_SL-e B- +Alias B-_SL-mu B- +Alias B-_no-SL B- + +## define charge conjugate relationships between aliases + +ChargeConj B+_SL-e B-_SL-e +ChargeConj B+_SL-mu B-_SL-mu +ChargeConj B+_no-SL B-_no-SL + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.5 B+_SL-e B-_no-SL VSS; + 0.5 B+_no-SL B-_SL-e VSS; +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-e + +# b -> c e+ nu (10.4%) + +0.0490 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0891%) + +0.000032 pi0 e+ nu_e PHOTOS ISGW2; +0.000012 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000020 eta' e+ nu_e PHOTOS ISGW2; +0.000137 a_10 e+ nu_e PHOTOS ISGW2; +0.000080 b_10 e+ nu_e PHOTOS ISGW2; +0.000012 a_00 e+ nu_e PHOTOS ISGW2; +0.000006 f_0 e+ nu_e PHOTOS ISGW2; +0.000006 f'_0 e+ nu_e PHOTOS ISGW2; +0.000068 f_1 e+ nu_e PHOTOS ISGW2; +0.000068 f'_1 e+ nu_e PHOTOS ISGW2; +0.000040 h_1 e+ nu_e PHOTOS ISGW2; +0.000040 h'_1 e+ nu_e PHOTOS ISGW2; +0.000060 f_2 e+ nu_e PHOTOS ISGW2; +0.000060 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-mu + +# b -> c mu+ nu (10.4%) + +0.0490 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0891%) + +0.000032 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000012 eta mu+ nu_mu PHOTOS ISGW2; +0.000125 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000125 omega mu+ nu_mu PHOTOS ISGW2; +0.000020 eta' mu+ nu_mu PHOTOS ISGW2; +0.000137 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000080 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000012 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000006 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000068 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000060 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-e + +# b -> c e- nu (10.4%) + +0.0490 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0070 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0070 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0891%) + +0.000032 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000012 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000020 eta' e- anti-nu_e PHOTOS ISGW2; +0.000137 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000080 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000012 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000006 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000006 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000068 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000068 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000060 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000060 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-mu + +# b -> c mu- nu (10.4%) + +0.0490 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0891%) + +0.000032 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000125 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000125 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000020 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000137 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000080 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_no-SL + +# b -> c tau+ nu (2.96%) + +0.0160 anti-D*0 tau+ nu_tau ISGW2; +0.0070 anti-D0 tau+ nu_tau ISGW2; +0.0013 anti-D_10 tau+ nu_tau ISGW2; +0.0013 anti-D_0*0 tau+ nu_tau ISGW2; +0.0020 anti-D'_10 tau+ nu_tau ISGW2; +0.0020 anti-D_2*0 tau+ nu_tau ISGW2; + +# b -> u tau+ nu (0.0298%) + +0.000010 pi0 tau+ nu_tau ISGW2; +0.000004 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000007 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; + +# b -> tau+ nu (0.005%) + +0.000050 tau+ nu_tau SLN; + +# Exclusive hadronic b->u (0.0037%) + +0.000026 pi+ pi0 pi0 CB3PI-P00 alpha; +0.000011 pi+ pi+ pi- CB3PI-MPP alpha; + +# B -> cc= s (1.95%) + +0.0009 J/psi K+ SVS; +0.0015 J/psi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi K0 pi+ PHSP; +0.0005 J/psi K+ pi0 PHSP; +0.0014 J/psi K+ pi- pi+ PHSP; +0.0007 J/psi K+ pi0 pi0 PHSP; +0.0007 J/psi K0 pi+ pi0 PHSP; +0.0005 J/psi K'_1+ PHSP; +0.0005 J/psi K_2*+ PHSP; +# +0.0006 psi(2S) K+ SVS; +0.0015 psi(2S) K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) K0 pi+ PHSP; +0.0002 psi(2S) K+ pi0 PHSP; +0.0004 psi(2S) K+ pi- pi+ PHSP; +0.0002 psi(2S) K+ pi0 pi0 PHSP; +0.0002 psi(2S) K0 pi+ pi0 PHSP; +# +0.0002 eta_c K+ PHSP; +0.0003 K*+ eta_c SVS; +0.0002 eta_c K0 pi+ PHSP; +0.0001 eta_c K+ pi0 PHSP; +0.0002 eta_c K+ pi- pi+ PHSP; +0.0001 eta_c K+ pi0 pi0 PHSP; +0.0001 eta_c K0 pi+ pi0 PHSP; +# +0.0002 chi_c0 K+ PHSP; +0.0003 K*+ chi_c0 SVS; +0.0002 chi_c0 K0 pi+ PHSP; +0.0001 chi_c0 K+ pi0 PHSP; +0.0002 chi_c0 K+ pi- pi+ PHSP; +0.0001 chi_c0 K+ pi0 pi0 PHSP; +0.0001 chi_c0 K0 pi+ pi0 PHSP; +# +0.0006 chi_c1 K+ SVS; +0.0012 chi_c1 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 K0 pi+ PHSP; +0.0002 chi_c1 K+ pi0 PHSP; +0.0004 chi_c1 K+ pi- pi+ PHSP; +0.0002 chi_c1 K+ pi0 pi0 PHSP; +0.0002 chi_c1 K0 pi+ pi0 PHSP; +# +0.0004 chi_c2 K+ PHSP; +0.0009 chi_c2 K*+ PHSP; +0.0004 chi_c2 K0 pi+ PHSP; +0.0002 chi_c2 K+ pi0 PHSP; +0.0004 chi_c2 K+ pi- pi+ PHSP; +0.0002 chi_c2 K+ pi0 pi0 PHSP; +0.0002 chi_c2 K0 pi+ pi0 PHSP; + +# b -> c (sc=) -> D Ds X (10.14%) + +0.0096 anti-D0 D_s+ PHSP; +0.0102 anti-D*0 D_s+ SVS; +0.0120 anti-D_10 D_s+ SVS; +0.0094 D_s*+ anti-D0 SVS; +0.0174 D_s*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0060 D_s+ D- pi+ PHSP; +0.0030 D_s+ anti-D0 pi0 PHSP; +0.0060 D_s*+ D- pi+ PHSP; +0.0030 D_s*+ anti-D0 pi0 PHSP; +0.0055 D_s+ D- pi+ pi0 PHSP; +0.0055 D_s+ anti-D0 pi+ pi- PHSP; +0.0014 D_s+ anti-D0 pi0 pi0 PHSP; +0.0055 D_s*+ D- pi+ pi0 PHSP; +0.0055 D_s*+ anti-D0 pi+ pi- PHSP; +0.0014 D_s*+ anti-D0 pi0 pi0 PHSP; + +# b -> c (sc=) -> D D= K X (8%) + +0.0025 anti-D0 D0 K+ PHSP; +0.0025 anti-D0 D+ K0 PHSP; +0.0025 anti-D0 D0 K*+ PHSP; +0.0025 anti-D0 D+ K*0 PHSP; +# +0.0050 anti-D*0 D0 K+ PHSP; +0.0050 anti-D*0 D+ K0 PHSP; +0.0050 anti-D0 D*0 K+ PHSP; +0.0050 anti-D0 D*+ K0 PHSP; +# +0.0025 anti-D*0 D0 K*+ PHSP; +0.0025 anti-D*0 D+ K*0 PHSP; +0.0025 anti-D0 D*0 K*+ PHSP; +0.0025 anti-D0 D*+ K*0 PHSP; +# +0.0150 anti-D*0 D*0 K+ PHSP; +0.0150 anti-D*0 D*+ K0 PHSP; +0.0050 anti-D*0 D*0 K*+ PHSP; +0.0050 anti-D*0 D*+ K*0 PHSP; + +# B -> D(*) X Exclusive Modes (8.26%) + +0.0050 anti-D*0 pi+ SVS; +0.0048 anti-D0 pi+ PHSP; +0.0132 anti-D0 rho+ PHSP; +0.0147 anti-D*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0015 anti-D_10 pi+ PHSP; +0.0007 anti-D_10 rho+ PHSP; +0.0005 anti-D0 pi0 pi+ PHSP; +0.0005 anti-D*0 pi0 pi+ PHSP; +0.0005 D- pi+ pi+ PHSP; +0.0005 D*- pi+ pi+ PHSP; +# +0.0042 a_1+ anti-D0 SVS; +0.0041 anti-D0 rho0 pi+ PHSP; +0.0041 anti-D0 pi- pi+ pi+ PHSP; +0.0183 anti-D*0 a_1+ PHSP; +0.0005 anti-D*0 rho0 pi+ PHSP; +0.0005 anti-D*0 pi- pi+ pi+ PHSP; +# +0.0020 D- rho+ pi+ PHSP; +0.0020 D- pi0 pi+ pi+ PHSP; +0.0020 D*- rho+ pi+ PHSP; +0.0020 D*- pi0 pi+ pi+ PHSP; +0.0005 anti-D*0 rho+ pi0 PHSP; +0.0005 anti-D*0 pi+ pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.04000 anti-cd_1 uu_1 JETSET 23; + +# Xi_c X (2.4%) + +0.02400 anti-cs_1 uu_1 JETSET 23; + +# misc fragmentation (41.277%) + +0.33327 u anti-d anti-c u JETSET 48; +0.04300 u anti-d anti-c u JETSET 25; +0.02250 u anti-s anti-c u JETSET 23; +0.00000 c anti-s anti-c u JETSET 13; +0.00400 c anti-d anti-c u JETSET 13; +0.00600 u anti-d anti-u u JETSET 48; +0.00400 c anti-s anti-u u JETSET 48; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_no-SL + +# b -> c tau- nu (2.96%) + +0.0160 D*0 tau- anti-nu_tau ISGW2; +0.0070 D0 tau- anti-nu_tau ISGW2; +0.0013 D_10 tau- anti-nu_tau ISGW2; +0.0013 D_0*0 tau- anti-nu_tau ISGW2; +0.0020 D'_10 tau- anti-nu_tau ISGW2; +0.0020 D_2*0 tau- anti-nu_tau ISGW2; + +# b -> u tau- nu (0.0298%) + +0.000010 pi0 tau- anti-nu_tau ISGW2; +0.000004 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000007 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; + +# b -> tau- nu (0.005%) + +0.000050 tau- anti-nu_tau SLN; + +# Exclusive hadronic b->u (0.0037%) + +0.000026 pi- pi0 pi0 CB3PI-P00 alpha; +0.000011 pi- pi- pi+ CB3PI-MPP alpha; + +# B -> cc= s (1.95%) + +0.0009 J/psi K- SVS; +0.0015 J/psi K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi anti-K0 pi- PHSP; +0.0005 J/psi K- pi0 PHSP; +0.0014 J/psi K- pi+ pi- PHSP; +0.0007 J/psi K- pi0 pi0 PHSP; +0.0007 J/psi anti-K0 pi- pi0 PHSP; +0.0005 J/psi K'_1- PHSP; +0.0005 J/psi K_2*- PHSP; +# +0.0006 psi(2S) K- SVS; +0.0015 psi(2S) K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) anti-K0 pi- PHSP; +0.0002 psi(2S) K- pi0 PHSP; +0.0004 psi(2S) K- pi+ pi- PHSP; +0.0002 psi(2S) K- pi0 pi0 PHSP; +0.0002 psi(2S) anti-K0 pi- pi0 PHSP; +# +0.0002 eta_c K- PHSP; +0.0003 K*- eta_c SVS; +0.0002 eta_c anti-K0 pi- PHSP; +0.0001 eta_c K- pi0 PHSP; +0.0002 eta_c K- pi+ pi- PHSP; +0.0001 eta_c K- pi0 pi0 PHSP; +0.0001 eta_c anti-K0 pi- pi0 PHSP; +# +0.0002 chi_c0 K- PHSP; +0.0003 K*- chi_c0 SVS; +0.0002 chi_c0 anti-K0 pi- PHSP; +0.0001 chi_c0 K- pi0 PHSP; +0.0002 chi_c0 K- pi+ pi- PHSP; +0.0001 chi_c0 K- pi0 pi0 PHSP; +0.0001 chi_c0 anti-K0 pi- pi0 PHSP; +# +0.0006 chi_c1 K- SVS; +0.0012 chi_c1 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 anti-K0 pi- PHSP; +0.0002 chi_c1 K- pi0 PHSP; +0.0004 chi_c1 K- pi+ pi- PHSP; +0.0002 chi_c1 K- pi0 pi0 PHSP; +0.0002 chi_c1 anti-K0 pi- pi0 PHSP; +# +0.0004 chi_c2 K- PHSP; +0.0009 chi_c2 K*- PHSP; +0.0004 chi_c2 anti-K0 pi- PHSP; +0.0002 chi_c2 K- pi0 PHSP; +0.0004 chi_c2 K- pi+ pi- PHSP; +0.0002 chi_c2 K- pi0 pi0 PHSP; +0.0002 chi_c2 anti-K0 pi- pi0 PHSP; + +# b -> c (sc=) -> D Ds X (10.14%) + +0.0096 D0 D_s- PHSP; +0.0102 D*0 D_s- SVS; +0.0120 D_10 D_s- SVS; +0.0094 D_s*- D0 SVS; +0.0174 D_s*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0060 D_s- D+ pi- PHSP; +0.0030 D_s- D0 pi0 PHSP; +0.0060 D_s*- D+ pi- PHSP; +0.0030 D_s*- D0 pi0 PHSP; +0.0055 D_s- D+ pi- pi0 PHSP; +0.0055 D_s- D0 pi- pi+ PHSP; +0.0014 D_s- D0 pi0 pi0 PHSP; +0.0055 D_s*- D+ pi- pi0 PHSP; +0.0055 D_s*- D0 pi- pi+ PHSP; +0.0014 D_s*- D0 pi0 pi0 PHSP; + +# b -> c (sc=) -> D D= K X (8%) + +0.0025 D0 anti-D0 K- PHSP; +0.0025 D0 D- anti-K0 PHSP; +0.0025 D0 anti-D0 K*- PHSP; +0.0025 D0 D- anti-K*0 PHSP; +# +0.0050 D*0 anti-D0 K- PHSP; +0.0050 D*0 D- anti-K0 PHSP; +0.0050 D0 anti-D*0 K- PHSP; +0.0050 D0 D*- anti-K0 PHSP; +# +0.0025 D*0 anti-D0 K*- PHSP; +0.0025 D*0 D- anti-K*0 PHSP; +0.0025 D0 anti-D*0 K*- PHSP; +0.0025 D0 D*- anti-K*0 PHSP; +# +0.0150 D*0 anti-D*0 K- PHSP; +0.0150 D*0 D*- anti-K0 PHSP; +0.0050 D*0 anti-D*0 K*- PHSP; +0.0050 D*0 D*- anti-K*0 PHSP; + +# B -> D(*) X Exclusive Modes (8.26%) + +0.0050 D*0 pi- SVS; +0.0048 D0 pi- PHSP; +0.0132 D0 rho- PHSP; +0.0147 D*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0015 D_10 pi- PHSP; +0.0007 D_10 rho- PHSP; +0.0005 D0 pi0 pi- PHSP; +0.0005 D*0 pi0 pi- PHSP; +0.0005 D+ pi- pi- PHSP; +0.0005 D*+ pi- pi- PHSP; +# +0.0042 a_1- D0 SVS; +0.0041 D0 rho0 pi- PHSP; +0.0041 D0 pi+ pi- pi- PHSP; +0.0183 D*0 a_1- PHSP; +0.0005 D*0 rho0 pi- PHSP; +0.0005 D*0 pi+ pi- pi- PHSP; +# +0.0020 D+ rho- pi- PHSP; +0.0020 D+ pi0 pi- pi- PHSP; +0.0020 D*+ rho- pi- PHSP; +0.0020 D*+ pi0 pi- pi- PHSP; +0.0005 D*0 rho- pi0 PHSP; +0.0005 D*0 pi- pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.04000 cd_1 anti-uu_1 JETSET 23; + +# Xi_c X (2.4%) + +0.02400 cs_1 anti-uu_1 JETSET 23; + +# misc fragmentation (41.277%) + +0.33327 anti-u d c anti-u JETSET 48; +0.04300 anti-u d c anti-u JETSET 25; +0.02250 anti-u s c anti-u JETSET 23; +0.00000 anti-c s c anti-u JETSET 13; +0.00400 anti-c d c anti-u JETSET 13; +0.00600 anti-u d u anti-u JETSET 48; +0.00400 anti-c s u anti-u JETSET 48; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Xmunu_Ymunu.dec b/BaBar_2014/BpBm_Xmunu_Ymunu.dec new file mode 100644 index 0000000..6b756a3 --- /dev/null +++ b/BaBar_2014/BpBm_Xmunu_Ymunu.dec @@ -0,0 +1,203 @@ +############################################################################### +# Decay file for Y(4S) -> B+ B- +# | | +# | --> X mu nu +# -----> Y mu nu +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Modified C. Bozzi (bozzi@fe.infn.it): cut B_no-SL aliases (Jetset problem) +# Last change 15 Oct 2000 +############################################################################### + +## define aliases with restricted decay modes (which are specified below) + +Alias B+_SL-e B+ +Alias B+_SL-mu B+ + +Alias B-_SL-e B- +Alias B-_SL-mu B- + +## define charge conjugate relationships between aliases + +ChargeConj B+_SL-e B-_SL-e +ChargeConj B+_SL-mu B-_SL-mu + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 1.0 B+_SL-mu B-_SL-mu VSS; +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-e + +# b -> c e+ nu (10.4%) + +0.0490 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0891%) + +0.000032 pi0 e+ nu_e PHOTOS ISGW2; +0.000012 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000020 eta' e+ nu_e PHOTOS ISGW2; +0.000137 a_10 e+ nu_e PHOTOS ISGW2; +0.000080 b_10 e+ nu_e PHOTOS ISGW2; +0.000012 a_00 e+ nu_e PHOTOS ISGW2; +0.000006 f_0 e+ nu_e PHOTOS ISGW2; +0.000006 f'_0 e+ nu_e PHOTOS ISGW2; +0.000068 f_1 e+ nu_e PHOTOS ISGW2; +0.000068 f'_1 e+ nu_e PHOTOS ISGW2; +0.000040 h_1 e+ nu_e PHOTOS ISGW2; +0.000040 h'_1 e+ nu_e PHOTOS ISGW2; +0.000060 f_2 e+ nu_e PHOTOS ISGW2; +0.000060 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-mu + +# b -> c mu+ nu (10.4%) + +0.0490 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0891%) + +0.000032 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000012 eta mu+ nu_mu PHOTOS ISGW2; +0.000125 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000125 omega mu+ nu_mu PHOTOS ISGW2; +0.000020 eta' mu+ nu_mu PHOTOS ISGW2; +0.000137 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000080 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000012 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000006 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000068 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000060 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-e + +# b -> c e- nu (10.4%) + +0.0490 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0070 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0070 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0891%) + +0.000032 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000012 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000020 eta' e- anti-nu_e PHOTOS ISGW2; +0.000137 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000080 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000012 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000006 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000006 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000068 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000068 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000060 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000060 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-mu + +# b -> c mu- nu (10.4%) + +0.0490 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0891%) + +0.000032 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000125 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000125 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000020 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000137 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000080 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Xmunu_noSLemu.dec b/BaBar_2014/BpBm_Xmunu_noSLemu.dec new file mode 100644 index 0000000..9592e63 --- /dev/null +++ b/BaBar_2014/BpBm_Xmunu_noSLemu.dec @@ -0,0 +1,576 @@ +############################################################################### +# Decay file for Y(4S) -> B+ B- (and C.C.) +# | | +# | --> X mu nu +# -----> non-SL +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Last change 15 Nov 1999 +############################################################################### + +## define aliases with restricted decay modes (which are specified below) + +Alias B+_SL-e B+ +Alias B+_SL-mu B+ +Alias B+_no-SL B+ + +Alias B-_SL-e B- +Alias B-_SL-mu B- +Alias B-_no-SL B- + +## define charge conjugate relationships between aliases + +ChargeConj B+_SL-e B-_SL-e +ChargeConj B+_SL-mu B-_SL-mu +ChargeConj B+_no-SL B-_no-SL + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 0.5 B+_SL-mu B-_no-SL VSS; + 0.5 B+_no-SL B-_SL-mu VSS; +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-e + +# b -> c e+ nu (10.4%) + +0.0490 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0891%) + +0.000032 pi0 e+ nu_e PHOTOS ISGW2; +0.000012 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000020 eta' e+ nu_e PHOTOS ISGW2; +0.000137 a_10 e+ nu_e PHOTOS ISGW2; +0.000080 b_10 e+ nu_e PHOTOS ISGW2; +0.000012 a_00 e+ nu_e PHOTOS ISGW2; +0.000006 f_0 e+ nu_e PHOTOS ISGW2; +0.000006 f'_0 e+ nu_e PHOTOS ISGW2; +0.000068 f_1 e+ nu_e PHOTOS ISGW2; +0.000068 f'_1 e+ nu_e PHOTOS ISGW2; +0.000040 h_1 e+ nu_e PHOTOS ISGW2; +0.000040 h'_1 e+ nu_e PHOTOS ISGW2; +0.000060 f_2 e+ nu_e PHOTOS ISGW2; +0.000060 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-mu + +# b -> c mu+ nu (10.4%) + +0.0490 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0891%) + +0.000032 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000012 eta mu+ nu_mu PHOTOS ISGW2; +0.000125 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000125 omega mu+ nu_mu PHOTOS ISGW2; +0.000020 eta' mu+ nu_mu PHOTOS ISGW2; +0.000137 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000080 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000012 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000006 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000068 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000060 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-e + +# b -> c e- nu (10.4%) + +0.0490 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0070 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0070 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0891%) + +0.000032 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000012 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000020 eta' e- anti-nu_e PHOTOS ISGW2; +0.000137 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000080 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000012 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000006 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000006 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000068 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000068 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000060 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000060 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-mu + +# b -> c mu- nu (10.4%) + +0.0490 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0891%) + +0.000032 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000125 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000125 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000020 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000137 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000080 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_no-SL + +# b -> c tau+ nu (2.96%) + +0.0160 anti-D*0 tau+ nu_tau ISGW2; +0.0070 anti-D0 tau+ nu_tau ISGW2; +0.0013 anti-D_10 tau+ nu_tau ISGW2; +0.0013 anti-D_0*0 tau+ nu_tau ISGW2; +0.0020 anti-D'_10 tau+ nu_tau ISGW2; +0.0020 anti-D_2*0 tau+ nu_tau ISGW2; + +# b -> u tau+ nu (0.0298%) + +0.000010 pi0 tau+ nu_tau ISGW2; +0.000004 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000007 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; + +# b -> tau+ nu (0.005%) + +0.000050 tau+ nu_tau SLN; + +# Exclusive hadronic b->u (0.0037%) + +0.000026 pi+ pi0 pi0 CB3PI-P00 alpha; +0.000011 pi+ pi+ pi- CB3PI-MPP alpha; + +# B -> cc= s (1.95%) + +0.0009 J/psi K+ SVS; +0.0015 J/psi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi K0 pi+ PHSP; +0.0005 J/psi K+ pi0 PHSP; +0.0014 J/psi K+ pi- pi+ PHSP; +0.0007 J/psi K+ pi0 pi0 PHSP; +0.0007 J/psi K0 pi+ pi0 PHSP; +0.0005 J/psi K'_1+ PHSP; +0.0005 J/psi K_2*+ PHSP; +# +0.0006 psi(2S) K+ SVS; +0.0015 psi(2S) K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) K0 pi+ PHSP; +0.0002 psi(2S) K+ pi0 PHSP; +0.0004 psi(2S) K+ pi- pi+ PHSP; +0.0002 psi(2S) K+ pi0 pi0 PHSP; +0.0002 psi(2S) K0 pi+ pi0 PHSP; +# +0.0002 eta_c K+ PHSP; +0.0003 K*+ eta_c SVS; +0.0002 eta_c K0 pi+ PHSP; +0.0001 eta_c K+ pi0 PHSP; +0.0002 eta_c K+ pi- pi+ PHSP; +0.0001 eta_c K+ pi0 pi0 PHSP; +0.0001 eta_c K0 pi+ pi0 PHSP; +# +0.0002 chi_c0 K+ PHSP; +0.0003 K*+ chi_c0 SVS; +0.0002 chi_c0 K0 pi+ PHSP; +0.0001 chi_c0 K+ pi0 PHSP; +0.0002 chi_c0 K+ pi- pi+ PHSP; +0.0001 chi_c0 K+ pi0 pi0 PHSP; +0.0001 chi_c0 K0 pi+ pi0 PHSP; +# +0.0006 chi_c1 K+ SVS; +0.0012 chi_c1 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 K0 pi+ PHSP; +0.0002 chi_c1 K+ pi0 PHSP; +0.0004 chi_c1 K+ pi- pi+ PHSP; +0.0002 chi_c1 K+ pi0 pi0 PHSP; +0.0002 chi_c1 K0 pi+ pi0 PHSP; +# +0.0004 chi_c2 K+ PHSP; +0.0009 chi_c2 K*+ PHSP; +0.0004 chi_c2 K0 pi+ PHSP; +0.0002 chi_c2 K+ pi0 PHSP; +0.0004 chi_c2 K+ pi- pi+ PHSP; +0.0002 chi_c2 K+ pi0 pi0 PHSP; +0.0002 chi_c2 K0 pi+ pi0 PHSP; + +# b -> c (sc=) -> D Ds X (10.14%) + +0.0096 anti-D0 D_s+ PHSP; +0.0102 anti-D*0 D_s+ SVS; +0.0120 anti-D_10 D_s+ SVS; +0.0094 D_s*+ anti-D0 SVS; +0.0174 D_s*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0060 D_s+ D- pi+ PHSP; +0.0030 D_s+ anti-D0 pi0 PHSP; +0.0060 D_s*+ D- pi+ PHSP; +0.0030 D_s*+ anti-D0 pi0 PHSP; +0.0055 D_s+ D- pi+ pi0 PHSP; +0.0055 D_s+ anti-D0 pi+ pi- PHSP; +0.0014 D_s+ anti-D0 pi0 pi0 PHSP; +0.0055 D_s*+ D- pi+ pi0 PHSP; +0.0055 D_s*+ anti-D0 pi+ pi- PHSP; +0.0014 D_s*+ anti-D0 pi0 pi0 PHSP; + +# b -> c (sc=) -> D D= K X (8%) + +0.0025 anti-D0 D0 K+ PHSP; +0.0025 anti-D0 D+ K0 PHSP; +0.0025 anti-D0 D0 K*+ PHSP; +0.0025 anti-D0 D+ K*0 PHSP; +# +0.0050 anti-D*0 D0 K+ PHSP; +0.0050 anti-D*0 D+ K0 PHSP; +0.0050 anti-D0 D*0 K+ PHSP; +0.0050 anti-D0 D*+ K0 PHSP; +# +0.0025 anti-D*0 D0 K*+ PHSP; +0.0025 anti-D*0 D+ K*0 PHSP; +0.0025 anti-D0 D*0 K*+ PHSP; +0.0025 anti-D0 D*+ K*0 PHSP; +# +0.0150 anti-D*0 D*0 K+ PHSP; +0.0150 anti-D*0 D*+ K0 PHSP; +0.0050 anti-D*0 D*0 K*+ PHSP; +0.0050 anti-D*0 D*+ K*0 PHSP; + +# B -> D(*) X Exclusive Modes (8.26%) + +0.0050 anti-D*0 pi+ SVS; +0.0048 anti-D0 pi+ PHSP; +0.0132 anti-D0 rho+ PHSP; +0.0147 anti-D*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0015 anti-D_10 pi+ PHSP; +0.0007 anti-D_10 rho+ PHSP; +0.0005 anti-D0 pi0 pi+ PHSP; +0.0005 anti-D*0 pi0 pi+ PHSP; +0.0005 D- pi+ pi+ PHSP; +0.0005 D*- pi+ pi+ PHSP; +# +0.0042 a_1+ anti-D0 SVS; +0.0041 anti-D0 rho0 pi+ PHSP; +0.0041 anti-D0 pi- pi+ pi+ PHSP; +0.0183 anti-D*0 a_1+ PHSP; +0.0005 anti-D*0 rho0 pi+ PHSP; +0.0005 anti-D*0 pi- pi+ pi+ PHSP; +# +0.0020 D- rho+ pi+ PHSP; +0.0020 D- pi0 pi+ pi+ PHSP; +0.0020 D*- rho+ pi+ PHSP; +0.0020 D*- pi0 pi+ pi+ PHSP; +0.0005 anti-D*0 rho+ pi0 PHSP; +0.0005 anti-D*0 pi+ pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.04000 anti-cd_1 uu_1 JETSET 23; + +# Xi_c X (2.4%) + +0.02400 anti-cs_1 uu_1 JETSET 23; + +# misc fragmentation (41.277%) + +0.33327 u anti-d anti-c u JETSET 48; +0.04300 u anti-d anti-c u JETSET 25; +0.02250 u anti-s anti-c u JETSET 23; +0.00000 c anti-s anti-c u JETSET 13; +0.00400 c anti-d anti-c u JETSET 13; +0.00600 u anti-d anti-u u JETSET 48; +0.00400 c anti-s anti-u u JETSET 48; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_no-SL + +# b -> c tau- nu (2.96%) + +0.0160 D*0 tau- anti-nu_tau ISGW2; +0.0070 D0 tau- anti-nu_tau ISGW2; +0.0013 D_10 tau- anti-nu_tau ISGW2; +0.0013 D_0*0 tau- anti-nu_tau ISGW2; +0.0020 D'_10 tau- anti-nu_tau ISGW2; +0.0020 D_2*0 tau- anti-nu_tau ISGW2; + +# b -> u tau- nu (0.0298%) + +0.000010 pi0 tau- anti-nu_tau ISGW2; +0.000004 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000007 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; + +# b -> tau- nu (0.005%) + +0.000050 tau- anti-nu_tau SLN; + +# Exclusive hadronic b->u (0.0037%) + +0.000026 pi- pi0 pi0 CB3PI-P00 alpha; +0.000011 pi- pi- pi+ CB3PI-MPP alpha; + +# B -> cc= s (1.95%) + +0.0009 J/psi K- SVS; +0.0015 J/psi K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi anti-K0 pi- PHSP; +0.0005 J/psi K- pi0 PHSP; +0.0014 J/psi K- pi+ pi- PHSP; +0.0007 J/psi K- pi0 pi0 PHSP; +0.0007 J/psi anti-K0 pi- pi0 PHSP; +0.0005 J/psi K'_1- PHSP; +0.0005 J/psi K_2*- PHSP; +# +0.0006 psi(2S) K- SVS; +0.0015 psi(2S) K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) anti-K0 pi- PHSP; +0.0002 psi(2S) K- pi0 PHSP; +0.0004 psi(2S) K- pi+ pi- PHSP; +0.0002 psi(2S) K- pi0 pi0 PHSP; +0.0002 psi(2S) anti-K0 pi- pi0 PHSP; +# +0.0002 eta_c K- PHSP; +0.0003 K*- eta_c SVS; +0.0002 eta_c anti-K0 pi- PHSP; +0.0001 eta_c K- pi0 PHSP; +0.0002 eta_c K- pi+ pi- PHSP; +0.0001 eta_c K- pi0 pi0 PHSP; +0.0001 eta_c anti-K0 pi- pi0 PHSP; +# +0.0002 chi_c0 K- PHSP; +0.0003 K*- chi_c0 SVS; +0.0002 chi_c0 anti-K0 pi- PHSP; +0.0001 chi_c0 K- pi0 PHSP; +0.0002 chi_c0 K- pi+ pi- PHSP; +0.0001 chi_c0 K- pi0 pi0 PHSP; +0.0001 chi_c0 anti-K0 pi- pi0 PHSP; +# +0.0006 chi_c1 K- SVS; +0.0012 chi_c1 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 anti-K0 pi- PHSP; +0.0002 chi_c1 K- pi0 PHSP; +0.0004 chi_c1 K- pi+ pi- PHSP; +0.0002 chi_c1 K- pi0 pi0 PHSP; +0.0002 chi_c1 anti-K0 pi- pi0 PHSP; +# +0.0004 chi_c2 K- PHSP; +0.0009 chi_c2 K*- PHSP; +0.0004 chi_c2 anti-K0 pi- PHSP; +0.0002 chi_c2 K- pi0 PHSP; +0.0004 chi_c2 K- pi+ pi- PHSP; +0.0002 chi_c2 K- pi0 pi0 PHSP; +0.0002 chi_c2 anti-K0 pi- pi0 PHSP; + +# b -> c (sc=) -> D Ds X (10.14%) + +0.0096 D0 D_s- PHSP; +0.0102 D*0 D_s- SVS; +0.0120 D_10 D_s- SVS; +0.0094 D_s*- D0 SVS; +0.0174 D_s*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0060 D_s- D+ pi- PHSP; +0.0030 D_s- D0 pi0 PHSP; +0.0060 D_s*- D+ pi- PHSP; +0.0030 D_s*- D0 pi0 PHSP; +0.0055 D_s- D+ pi- pi0 PHSP; +0.0055 D_s- D0 pi- pi+ PHSP; +0.0014 D_s- D0 pi0 pi0 PHSP; +0.0055 D_s*- D+ pi- pi0 PHSP; +0.0055 D_s*- D0 pi- pi+ PHSP; +0.0014 D_s*- D0 pi0 pi0 PHSP; + +# b -> c (sc=) -> D D= K X (8%) + +0.0025 D0 anti-D0 K- PHSP; +0.0025 D0 D- anti-K0 PHSP; +0.0025 D0 anti-D0 K*- PHSP; +0.0025 D0 D- anti-K*0 PHSP; +# +0.0050 D*0 anti-D0 K- PHSP; +0.0050 D*0 D- anti-K0 PHSP; +0.0050 D0 anti-D*0 K- PHSP; +0.0050 D0 D*- anti-K0 PHSP; +# +0.0025 D*0 anti-D0 K*- PHSP; +0.0025 D*0 D- anti-K*0 PHSP; +0.0025 D0 anti-D*0 K*- PHSP; +0.0025 D0 D*- anti-K*0 PHSP; +# +0.0150 D*0 anti-D*0 K- PHSP; +0.0150 D*0 D*- anti-K0 PHSP; +0.0050 D*0 anti-D*0 K*- PHSP; +0.0050 D*0 D*- anti-K*0 PHSP; + +# B -> D(*) X Exclusive Modes (8.26%) + +0.0050 D*0 pi- SVS; +0.0048 D0 pi- PHSP; +0.0132 D0 rho- PHSP; +0.0147 D*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0015 D_10 pi- PHSP; +0.0007 D_10 rho- PHSP; +0.0005 D0 pi0 pi- PHSP; +0.0005 D*0 pi0 pi- PHSP; +0.0005 D+ pi- pi- PHSP; +0.0005 D*+ pi- pi- PHSP; +# +0.0042 a_1- D0 SVS; +0.0041 D0 rho0 pi- PHSP; +0.0041 D0 pi+ pi- pi- PHSP; +0.0183 D*0 a_1- PHSP; +0.0005 D*0 rho0 pi- PHSP; +0.0005 D*0 pi+ pi- pi- PHSP; +# +0.0020 D+ rho- pi- PHSP; +0.0020 D+ pi0 pi- pi- PHSP; +0.0020 D*+ rho- pi- PHSP; +0.0020 D*+ pi0 pi- pi- PHSP; +0.0005 D*0 rho- pi0 PHSP; +0.0005 D*0 pi- pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.04000 cd_1 anti-uu_1 JETSET 23; + +# Xi_c X (2.4%) + +0.02400 cs_1 anti-uu_1 JETSET 23; + +# misc fragmentation (41.277%) + +0.33327 anti-u d c anti-u JETSET 48; +0.04300 anti-u d c anti-u JETSET 25; +0.02250 anti-u s c anti-u JETSET 23; +0.00000 anti-c s c anti-u JETSET 13; +0.00400 anti-c d c anti-u JETSET 13; +0.00600 anti-u d u anti-u JETSET 48; +0.00400 anti-c s u anti-u JETSET 48; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_Xsee.dec b/BaBar_2014/BpBm_Xsee.dec new file mode 100644 index 0000000..4f6f813 --- /dev/null +++ b/BaBar_2014/BpBm_Xsee.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B+ -> Xsu e+ e-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +############################################################ +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu e+ e- PHOTOS BTOXSLL; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu e+ e- PHOTOS BTOXSLL; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xsee_Ali02_mb480_pf410_JetSet02.dec b/BaBar_2014/BpBm_Xsee_Ali02_mb480_pf410_JetSet02.dec new file mode 100644 index 0000000..45ef166 --- /dev/null +++ b/BaBar_2014/BpBm_Xsee_Ali02_mb480_pf410_JetSet02.dec @@ -0,0 +1,66 @@ +############################################################ +# # +# Decay: B+ -> Xsu e+ e-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xsee_pf410.dec b/BaBar_2014/BpBm_Xsee_pf410.dec new file mode 100644 index 0000000..45ef166 --- /dev/null +++ b/BaBar_2014/BpBm_Xsee_pf410.dec @@ -0,0 +1,66 @@ +############################################################ +# # +# Decay: B+ -> Xsu e+ e-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu e+ e- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec new file mode 100644 index 0000000..dc4a8ea --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_6To1_7_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.6 1.7; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.6 1.7; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec new file mode 100644 index 0000000..84fc910 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_6To2_6_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec new file mode 100644 index 0000000..6e7ce55 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_7To1_8_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec new file mode 100644 index 0000000..cecbbe9 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_8To1_9_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec new file mode 100644 index 0000000..bbf0e01 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_1_9To2_0_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec new file mode 100644 index 0000000..81cb515 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_0To2_1_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec new file mode 100644 index 0000000..c2736ab --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_1To2_2_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec new file mode 100644 index 0000000..52f5a9d --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_2To2_3_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec new file mode 100644 index 0000000..71f142f --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_3To2_4_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec new file mode 100644 index 0000000..cef635a --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_4To2_5_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec new file mode 100644 index 0000000..32a65a5 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_5To2_6_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec new file mode 100644 index 0000000..d268394 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_FlatEGamma_2_6To2_7_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb465_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb465_JetSet02.dec new file mode 100644 index 0000000..9773ae6 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb465_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb470_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb470_JetSet02.dec new file mode 100644 index 0000000..237d470 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb470_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb475_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb475_JetSet02.dec new file mode 100644 index 0000000..13074e4 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb475_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_JetSet02.dec new file mode 100644 index 0000000..8a59d94 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec new file mode 100644 index 0000000..83b5d37 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_0To1_2_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec new file mode 100644 index 0000000..c7f4a26 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_2To1_4_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec new file mode 100644 index 0000000..0ac0d38 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_4To1_6_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec new file mode 100644 index 0000000..dd1e59b --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_6To1_8_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec new file mode 100644 index 0000000..824135e --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs1_8To2_0_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec new file mode 100644 index 0000000..06032ef --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_0To2_2_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec new file mode 100644 index 0000000..cfb8a52 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_2To2_4_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec new file mode 100644 index 0000000..3faa95a --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_4To2_6_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec new file mode 100644 index 0000000..42c63a4 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_6To2_8_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec new file mode 100644 index 0000000..4905336 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb480_mXs2_8To3_0_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb485_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb485_JetSet02.dec new file mode 100644 index 0000000..1c2ca1f --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb485_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb490_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb490_JetSet02.dec new file mode 100644 index 0000000..0e9aa48 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb490_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsgamma_Kagan99_mb495_JetSet02.dec b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb495_JetSet02.dec new file mode 100644 index 0000000..44fdc12 --- /dev/null +++ b/BaBar_2014/BpBm_Xsgamma_Kagan99_mb495_JetSet02.dec @@ -0,0 +1,63 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_Xsmumu.dec b/BaBar_2014/BpBm_Xsmumu.dec new file mode 100644 index 0000000..b914fe6 --- /dev/null +++ b/BaBar_2014/BpBm_Xsmumu.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B+ -> Xsu mu+ mu-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +############################################################ +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu mu+ mu- PHOTOS BTOXSLL; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu mu+ mu- PHOTOS BTOXSLL; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xsmumu_Ali02_mb480_pf410_JetSet02.dec b/BaBar_2014/BpBm_Xsmumu_Ali02_mb480_pf410_JetSet02.dec new file mode 100644 index 0000000..7528278 --- /dev/null +++ b/BaBar_2014/BpBm_Xsmumu_Ali02_mb480_pf410_JetSet02.dec @@ -0,0 +1,66 @@ +############################################################ +# # +# Decay: B+ -> Xsu mu+ mu-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xsmumu_pf410.dec b/BaBar_2014/BpBm_Xsmumu_pf410.dec new file mode 100644 index 0000000..7528278 --- /dev/null +++ b/BaBar_2014/BpBm_Xsmumu_pf410.dec @@ -0,0 +1,66 @@ +############################################################ +# # +# Decay: B+ -> Xsu mu+ mu-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +# 3 March 2004 reset JetSet PARJ(2) param # +############################################################ +# +# Modify JetSet fragmentation parameters +# Restore JetSet default value for probability that a strange meson +# has spin 1 +JetSetPar PARJ(12)=0.6 +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu mu+ mu- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xstautau.dec b/BaBar_2014/BpBm_Xstautau.dec new file mode 100644 index 0000000..579a5bd --- /dev/null +++ b/BaBar_2014/BpBm_Xstautau.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B+ -> Xsu tau+ tau-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +############################################################ +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu tau+ tau- PHOTOS BTOXSLL; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu tau+ tau- PHOTOS BTOXSLL; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xstautau_pf410.dec b/BaBar_2014/BpBm_Xstautau_pf410.dec new file mode 100644 index 0000000..b1efe96 --- /dev/null +++ b/BaBar_2014/BpBm_Xstautau_pf410.dec @@ -0,0 +1,60 @@ +############################################################ +# # +# Decay: B+ -> Xsu tau+ tau-, B- -> X + c.c. # +# # +# Xsu is non-resonant (s-bar u) hadronic system # +# fragmented by Jetset # +# # +# Author: Stephane Willocq (willocq@slac.stanford.edu) # +# Created: 30 March 2001 # +# Modified: 15 July 2003 include 4 input params # +############################################################ +# +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ + 1.0000 Xsu tau+ tau- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +Decay MyB- + 1.0000 anti-Xsu tau+ tau- PHOTOS BTOXSLL 4.80 0.2 0.0 0.41; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_Xsugamma.dec b/BaBar_2014/BpBm_Xsugamma.dec new file mode 100644 index 0000000..ed147a3 --- /dev/null +++ b/BaBar_2014/BpBm_Xsugamma.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaAli.dec b/BaBar_2014/BpBm_XsugammaAli.dec new file mode 100644 index 0000000..59184ae --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaAli.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 1; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 1; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp465.dec b/BaBar_2014/BpBm_XsugammaExp465.dec new file mode 100644 index 0000000..79f70b3 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp465.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.65 4.65 -0.52 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp470.dec b/BaBar_2014/BpBm_XsugammaExp470.dec new file mode 100644 index 0000000..cf89e01 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp470.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.70 4.70 -0.45 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp475.dec b/BaBar_2014/BpBm_XsugammaExp475.dec new file mode 100644 index 0000000..55190ee --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp475.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.75 4.75 -0.37 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480.dec b/BaBar_2014/BpBm_XsugammaExp480.dec new file mode 100644 index 0000000..b148c12 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.3 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_1.0to1.2.dec b/BaBar_2014/BpBm_XsugammaExp480_1.0to1.2.dec new file mode 100644 index 0000000..624f867 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_1.0to1.2.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.0 1.2; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_1.2to1.4.dec b/BaBar_2014/BpBm_XsugammaExp480_1.2to1.4.dec new file mode 100644 index 0000000..a29eeb7 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_1.2to1.4.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.2 1.4; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_1.4to1.6.dec b/BaBar_2014/BpBm_XsugammaExp480_1.4to1.6.dec new file mode 100644 index 0000000..b17b913 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_1.4to1.6.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.4 1.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_1.6to1.8.dec b/BaBar_2014/BpBm_XsugammaExp480_1.6to1.8.dec new file mode 100644 index 0000000..724922b --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_1.6to1.8.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.6 1.8; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_1.8to2.0.dec b/BaBar_2014/BpBm_XsugammaExp480_1.8to2.0.dec new file mode 100644 index 0000000..8778637 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_1.8to2.0.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 1.8 2.0; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_2.0to2.2.dec b/BaBar_2014/BpBm_XsugammaExp480_2.0to2.2.dec new file mode 100644 index 0000000..a705631 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_2.0to2.2.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.0 2.2; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_2.2to2.4.dec b/BaBar_2014/BpBm_XsugammaExp480_2.2to2.4.dec new file mode 100644 index 0000000..4537a4a --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_2.2to2.4.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.2 2.4; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_2.4to2.6.dec b/BaBar_2014/BpBm_XsugammaExp480_2.4to2.6.dec new file mode 100644 index 0000000..0cbfbba --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_2.4to2.6.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.4 2.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_2.6to2.8.dec b/BaBar_2014/BpBm_XsugammaExp480_2.6to2.8.dec new file mode 100644 index 0000000..693c0c2 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_2.6to2.8.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.6 2.8; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp480_2.8to3.0.dec b/BaBar_2014/BpBm_XsugammaExp480_2.8to3.0.dec new file mode 100644 index 0000000..8e1963c --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp480_2.8to3.0.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.80 4.80 -0.3 0.9 0.0484 100 80 2.8 3.0; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp485.dec b/BaBar_2014/BpBm_XsugammaExp485.dec new file mode 100644 index 0000000..7970bb1 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp485.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.25 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp490.dec b/BaBar_2014/BpBm_XsugammaExp490.dec new file mode 100644 index 0000000..cd60165 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp490.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.8 4.8 -0.2 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaExp495.dec b/BaBar_2014/BpBm_XsugammaExp495.dec new file mode 100644 index 0000000..ba57038 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaExp495.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 2 1 5.279 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 2 1 5.279 4.95 4.95 -0.14 0.9 0.0484 100 80; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma1_6To2_7.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma1_6To2_7.dec new file mode 100644 index 0000000..0c3dc2d --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma1_6To2_7.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.6 2.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma1_7To1_8.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma1_7To1_8.dec new file mode 100644 index 0000000..5bdaca3 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma1_7To1_8.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.7 1.8; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma1_8To1_9.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma1_8To1_9.dec new file mode 100644 index 0000000..40a93ae --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma1_8To1_9.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.8 1.9; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma1_9To2_0.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma1_9To2_0.dec new file mode 100644 index 0000000..e28f3bf --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma1_9To2_0.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 1.9 2.0; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma2_0To2_1.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma2_0To2_1.dec new file mode 100644 index 0000000..af6e526 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma2_0To2_1.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.0 2.1; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma2_1To2_2.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma2_1To2_2.dec new file mode 100644 index 0000000..a87b868 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma2_1To2_2.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.1 2.2; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma2_2To2_3.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma2_2To2_3.dec new file mode 100644 index 0000000..339ba32 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma2_2To2_3.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.2 2.3; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma2_3To2_4.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma2_3To2_4.dec new file mode 100644 index 0000000..3f762ec --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma2_3To2_4.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.3 2.4; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma2_4To2_5.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma2_4To2_5.dec new file mode 100644 index 0000000..d9410da --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma2_4To2_5.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.4 2.5; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma2_5To2_6.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma2_5To2_6.dec new file mode 100644 index 0000000..d857e59 --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma2_5To2_6.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.5 2.6; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XsugammaFlatEGamma2_6To2_7.dec b/BaBar_2014/BpBm_XsugammaFlatEGamma2_6To2_7.dec new file mode 100644 index 0000000..d6af97a --- /dev/null +++ b/BaBar_2014/BpBm_XsugammaFlatEGamma2_6To2_7.dec @@ -0,0 +1,60 @@ +# +# Mark Williams' non-resonant B->Xs,gamma penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSGAMMA model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# (Note that this could be modified for use with B_s->Xss,gamma decays +# as the BTOXSGAMMA model already allows for B_s radiative penguins.) +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + +Alias myB+ B+ +Alias myB- B- +ChargeConj myB+ myB- + +Decay Upsilon(4S) +0.5 myB+ B- VSS; +0.5 myB- B+ VSS; +Enddecay + +Decay myB+ +1.00000 Xsu gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +Decay myB- +1.00000 anti-Xsu gamma BTOXSGAMMA 4 2.6 2.7; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_XtoJpsiGammaK.dec b/BaBar_2014/BpBm_XtoJpsiGammaK.dec new file mode 100644 index 0000000..58bfc1a --- /dev/null +++ b/BaBar_2014/BpBm_XtoJpsiGammaK.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: B- -> X3872 K-, B+ -> X # +# |-> Jpsi gamma # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +# +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyX K- PHSP; +Enddecay + +Decay MyX +1.0 gamma MyJpsi PHSP; +Enddecay + +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_XtoJpsiGammaKstar_K.dec b/BaBar_2014/BpBm_XtoJpsiGammaKstar_K.dec new file mode 100644 index 0000000..2cc36a1 --- /dev/null +++ b/BaBar_2014/BpBm_XtoJpsiGammaKstar_K.dec @@ -0,0 +1,56 @@ +############################################################ +# # +# Decay: B- -> X3872 K*-, B+ -> X # +# |-> Jpsi gamma K pi0 # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +# +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyKstar- K*- +Alias MyKstar+ K*+ +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyX MyKstar+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyX MyKstar- PHSP; +Enddecay + +Decay MyX +1.0 gamma MyJpsi PHSP; +Enddecay + +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_XtoJpsiGammaKstar_KS.dec b/BaBar_2014/BpBm_XtoJpsiGammaKstar_KS.dec new file mode 100644 index 0000000..25c2bb1 --- /dev/null +++ b/BaBar_2014/BpBm_XtoJpsiGammaKstar_KS.dec @@ -0,0 +1,61 @@ +############################################################ +# # +# Decay: B- -> X3872 K*-, B+ -> X # +# |-> Jpsi gamma KS(pi+pi-) pi # +# # +# # +# + cc # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +# +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +Alias MyKstar- K*- +Alias MyKstar+ K*+ +Alias MyK_S0 K_S0 +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyX MyKstar+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyX MyKstar- PHSP; +Enddecay + +Decay MyX +1.0 gamma MyJpsi PHSP; +Enddecay + +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_XtoJpsiPi0K.dec b/BaBar_2014/BpBm_XtoJpsiPi0K.dec new file mode 100644 index 0000000..b1584f0 --- /dev/null +++ b/BaBar_2014/BpBm_XtoJpsiPi0K.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B+ -> h_c K+, B- -> X # +# | # +# J/psi pi0 # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# # +# Author: D. Bernard # +# Created: Thu Feb 26 MET 2004 # +# # +############################################################ +# +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias MyX dummy00_1 +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- + 1.000 MyX K- PHSP; +Enddecay +# +# +Decay MyX + 1.000 MyJ/psi pi0 PHSP; +Enddecay +# +# +Decay MyJ/psi + 0.5000 e+ e- PHOTOS VLL; + 0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_a00Kp_etato3pi.dec b/BaBar_2014/BpBm_a00Kp_etato3pi.dec new file mode 100644 index 0000000..29c6326 --- /dev/null +++ b/BaBar_2014/BpBm_a00Kp_etato3pi.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: B+ -> a_00 K+ + cc # +# | # +# | # +# --------> eta pi0 -> 3pi pi0 # +# # +# Author: Paul C. Bloom # +# Date: 26 December 2002 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias Mya_00 a_00 +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 Mya_00 K+ PHSP; +Enddecay + +Decay MyB- +1.000 Mya_00 K- PHSP; +Enddecay + +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a00Kp_etatogg.dec b/BaBar_2014/BpBm_a00Kp_etatogg.dec new file mode 100644 index 0000000..9941cfe --- /dev/null +++ b/BaBar_2014/BpBm_a00Kp_etatogg.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: B+ -> a_00 K+ + cc # +# | # +# | # +# --------> eta pi0 -> gg pi # +# # +# Author: Paul C. Bloom # +# Date: 26 December 2002 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias Mya_00 a_00 +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 Mya_00 K+ PHSP; +Enddecay + +Decay MyB- +1.000 Mya_00 K- PHSP; +Enddecay + +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a00pip_etato3pi.dec b/BaBar_2014/BpBm_a00pip_etato3pi.dec new file mode 100644 index 0000000..155aba2 --- /dev/null +++ b/BaBar_2014/BpBm_a00pip_etato3pi.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: B+ -> a_00 pi+ + cc # +# | # +# | # +# --------> eta pi0 -> 3pi pi0 # +# # +# Author: Paul C. Bloom # +# Date: 26 December 2002 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias Mya_00 a_00 +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 Mya_00 pi+ PHSP; +Enddecay + +Decay MyB- +1.000 Mya_00 pi- PHSP; +Enddecay + +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a00pip_etatogg.dec b/BaBar_2014/BpBm_a00pip_etatogg.dec new file mode 100644 index 0000000..fed2247 --- /dev/null +++ b/BaBar_2014/BpBm_a00pip_etatogg.dec @@ -0,0 +1,39 @@ +################################################### +# # +# Decay: B+ -> a_00 pi+ + cc # +# | # +# | # +# --------> eta pi0 -> gg pi # +# # +# Author: Paul C. Bloom # +# Date: 26 December 2002 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias Mya_00 a_00 +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 Mya_00 pi+ PHSP; +Enddecay + +Decay MyB- +1.000 Mya_00 pi- PHSP; +Enddecay + +Decay Mya_00 +1.0000 Myeta pi0 PHSP; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a0pks.dec b/BaBar_2014/BpBm_a0pks.dec new file mode 100644 index 0000000..aa4c335 --- /dev/null +++ b/BaBar_2014/BpBm_a0pks.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Decay: B+ -> a_0+ ks + cc # +# | | # +# | | # +# | ---> pi- pi+ # +# | # +# --------> eta pi -> gg pi # +# # +# Author: Vasia Shelkov(vasia@slac.stanford.edu) # +# Date: 24 March 2001 # +################################################### +# Decay table for B+ -> a0+ rho0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi- pi+ (using a simple VSS model). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyKs K_S0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 MyKs Mya_0+ PHSP; +Enddecay + +Decay MyB- +1.000 MyKs Mya_0- PHSP; +Enddecay + +Decay MyKs +1.000 pi- pi+ PHSP; +Enddecay + +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay + +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a0pks_etato3pi.dec b/BaBar_2014/BpBm_a0pks_etato3pi.dec new file mode 100644 index 0000000..f04f432 --- /dev/null +++ b/BaBar_2014/BpBm_a0pks_etato3pi.dec @@ -0,0 +1,51 @@ +################################################### +# # +# Decay: B+ -> a_0+ ks + cc # +# | | # +# | | # +# | ---> pi- pi+ # +# | # +# --------> eta pi -> 3pi pi # +# # +# Author: Paul C. Bloom # +# Date: 25 December 2002 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias MyKs K_S0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 MyKs Mya_0+ PHSP; +Enddecay + +Decay MyB- +1.000 MyKs Mya_0- PHSP; +Enddecay + +Decay MyKs +1.000 pi- pi+ PHSP; +Enddecay + +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay + +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a0pkstar0.dec b/BaBar_2014/BpBm_a0pkstar0.dec new file mode 100644 index 0000000..36a5f16 --- /dev/null +++ b/BaBar_2014/BpBm_a0pkstar0.dec @@ -0,0 +1,59 @@ +################################################### +# # +# Decay: B+ -> a_0+ K*0 + cc # +# | | # +# | | # +# | ---> K- pi+ # +# | # +# --------> eta pi -> gg pi # +# # +# Author: Vasia Shelkov(vasia@slac.stanford.edu) # +# Date: 24 March 2001 # +################################################### +# Decay table for B+ -> a0+ rho0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi- pi+ (using a simple VSS model). + +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar0 K*0 +Alias MyantiKstar0 anti-K*0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 MyKstar0 Mya_0+ SVS; +Enddecay + +Decay MyB- +1.000 MyantiKstar0 Mya_0- SVS; +Enddecay + +Decay MyKstar0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyantiKstar0 +1.0000 K- pi+ VSS; +Enddecay + +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay + +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a0ppi0_etato3pi.dec b/BaBar_2014/BpBm_a0ppi0_etato3pi.dec new file mode 100644 index 0000000..a5bb499 --- /dev/null +++ b/BaBar_2014/BpBm_a0ppi0_etato3pi.dec @@ -0,0 +1,43 @@ +################################################### +# # +# Decay: B+ -> a_0+ pi0 + cc # +# | # +# --------> eta pi -> 3pi pi # +# # +# Author: Paul C. Bloom # +# Date: 26 December 2002 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 pi0 Mya_0+ PHSP; +Enddecay + +Decay MyB- +1.000 pi0 Mya_0- PHSP; +Enddecay + +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay + +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay + +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a0ppi0_etatogg.dec b/BaBar_2014/BpBm_a0ppi0_etatogg.dec new file mode 100644 index 0000000..d5b1e65 --- /dev/null +++ b/BaBar_2014/BpBm_a0ppi0_etatogg.dec @@ -0,0 +1,43 @@ +################################################### +# # +# Decay: B+ -> a_0+ pi0 + cc # +# | # +# --------> eta pi -> gg pi # +# # +# Author: Paul C. Bloom # +# Date: 36 December 2002 # +################################################### + +Alias MyB+ B+ +Alias MyB- B- +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 pi0 Mya_0+ PHSP; +Enddecay + +Decay MyB- +1.000 pi0 Mya_0- PHSP; +Enddecay + +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay + +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a0prho0.dec b/BaBar_2014/BpBm_a0prho0.dec new file mode 100644 index 0000000..3647bc8 --- /dev/null +++ b/BaBar_2014/BpBm_a0prho0.dec @@ -0,0 +1,54 @@ +################################################### +# # +# Decay: B+ -> a_0+ rho0 + cc # +# | | # +# | | # +# | ---> pi- pi+ # +# | # +# --------> eta pi -> gg pi # +# # +# Author: Vasia Shelkov(vasia@slac.stanford.edu) # +# Date: 24 March 2001 # +################################################### +# Decay table for B+ -> a0+ rho0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi- pi+ (using a simple VSS model). + +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho0 rho0 +Alias Mya_0+ a_0+ +Alias Mya_0- a_0- +Alias Myeta eta + +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.000 Myrho0 Mya_0+ SVS; +Enddecay + +Decay MyB- +1.000 Myrho0 Mya_0- SVS; +Enddecay + +Decay Myrho0 +1.000 pi- pi+ VSS; +Enddecay + +Decay Mya_0- +1.0000 Myeta pi- PHSP; +Enddecay + +Decay Mya_0+ +1.0000 Myeta pi+ PHSP; +Enddecay + +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a10K_RhoPi.dec b/BaBar_2014/BpBm_a10K_RhoPi.dec new file mode 100644 index 0000000..4293d08 --- /dev/null +++ b/BaBar_2014/BpBm_a10K_RhoPi.dec @@ -0,0 +1,27 @@ +################################################### +# # +# B+ -> a_10 K+ +cc (a_10-> rho+ pi-, rho- pi+) # +# # +# Author: D.Walker # +# created: 12/04/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 a_10 K+ SVS; +Enddecay + +Decay MyB- +1.0000 a_10 K- SVS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a10Pi_RhoPi.dec b/BaBar_2014/BpBm_a10Pi_RhoPi.dec new file mode 100644 index 0000000..577f0fc --- /dev/null +++ b/BaBar_2014/BpBm_a10Pi_RhoPi.dec @@ -0,0 +1,27 @@ +################################################### +# # +# B+ -> a_10 pi+ +cc (a_10-> rho+ pi-, rho- pi+) # +# # +# Author: S. EMERY # +# created: 23/07/03 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 a_10 pi+ SVS; +Enddecay + +Decay MyB- +1.0000 a_10 pi- SVS; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_a10rhop_ln.dec b/BaBar_2014/BpBm_a10rhop_ln.dec new file mode 100644 index 0000000..715c9de --- /dev/null +++ b/BaBar_2014/BpBm_a10rhop_ln.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B+ -> a10 rho+ -> (rho+ pi-)(rho+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/06/2003 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_10 a_10 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_10 rho+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_10 rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_10 +0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End + + + + diff --git a/BaBar_2014/BpBm_a10rhop_tr.dec b/BaBar_2014/BpBm_a10rhop_tr.dec new file mode 100644 index 0000000..a4cca14 --- /dev/null +++ b/BaBar_2014/BpBm_a10rhop_tr.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B+ -> a10 rho+ -> (rho+ pi-)(rho+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/06/2003 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_10 a_10 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_10 rho+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_10 rho- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay mya_10 +0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End + + + + diff --git a/BaBar_2014/BpBm_a1Pi0_Rho0Pi.dec b/BaBar_2014/BpBm_a1Pi0_Rho0Pi.dec new file mode 100644 index 0000000..3dbc7c4 --- /dev/null +++ b/BaBar_2014/BpBm_a1Pi0_Rho0Pi.dec @@ -0,0 +1,46 @@ +################################################### +# # +# B+ -> a_1+ pi0 +cc (a_1+ -> rho0 pi+) # +# (a_1- -> rho0 pi-) # +# # +# Author: D. Walker # +# Date: 10/02/04 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +ChargeConj Mya_1+ Mya_1- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Mya_1+ pi0 SVS; +Enddecay + +Decay MyB- +1.0000 Mya_1- pi0 SVS; +Enddecay + +Decay Mya_1+ +1.000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_a1_D0mK3pimKs2pi.dec b/BaBar_2014/BpBm_a1_D0mK3pimKs2pi.dec new file mode 100644 index 0000000..2612451 --- /dev/null +++ b/BaBar_2014/BpBm_a1_D0mK3pimKs2pi.dec @@ -0,0 +1,111 @@ +## Charged B mesons decaying to D0 a1+. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Mya_1+ Myanti-D0 SVS; +Enddecay +# +Decay MyB- +1.000 Mya_1- MyD0 SVS; +Enddecay +# +Decay MyD0 +0.446 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277*2 total) +0.2540 Mya_1+ K- SVS; +0.0246 MyK_1- pi+ SVS; +0.0750 Myanti-K*0 pi+ pi- PHSP; +0.0388 K- pi+ rho0 PHSP; +0.0924 K- pi+ pi+ pi- PHSP; +0.0692 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.446 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.2540 Mya_1- K+ SVS; +0.0246 MyK_1+ pi- SVS; +0.0750 MyK*0 pi- pi+ PHSP; +0.0388 K+ pi- rho0 PHSP; +0.0924 K+ pi- pi- pi+ PHSP; +0.0692 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/BpBm_a1_D0mKpimKpipi0.dec b/BaBar_2014/BpBm_a1_D0mKpimKpipi0.dec new file mode 100644 index 0000000..c6cecc7 --- /dev/null +++ b/BaBar_2014/BpBm_a1_D0mKpimKpipi0.dec @@ -0,0 +1,49 @@ +## Charged B mesons decaying to D(*)0 a1+. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Mya_1+ Myanti-D0 SVS; +Enddecay +# +Decay MyB- +1.000 Mya_1- MyD0 SVS; +Enddecay +# +Decay MyD0 +0.500 K- pi+ PHSP; +0.500 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.500 K+ pi- PHSP; +0.500 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +End + + + + diff --git a/BaBar_2014/BpBm_a1_Dstar0mpi0D0mK3pimKs2pi.dec b/BaBar_2014/BpBm_a1_Dstar0mpi0D0mK3pimKs2pi.dec new file mode 100644 index 0000000..4fb2e9c --- /dev/null +++ b/BaBar_2014/BpBm_a1_Dstar0mpi0D0mK3pimKs2pi.dec @@ -0,0 +1,121 @@ +## Charged B mesons decaying to D0 a1+. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyKs K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.446 Myanti-K0 pi+ pi- D_DALITZ; +## K 3pi (0.277*2 total) +0.2540 Mya_1+ K- SVS; +0.0246 MyK_1- pi+ SVS; +0.0750 Myanti-K*0 pi+ pi- PHSP; +0.0388 K- pi+ rho0 PHSP; +0.0924 K- pi+ pi+ pi- PHSP; +0.0692 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D0 +0.446 MyK0 pi- pi+ D_DALITZ; +## K 3pi (0.277 total) +0.2540 Mya_1- K+ SVS; +0.0246 MyK_1+ pi- SVS; +0.0750 MyK*0 pi- pi+ PHSP; +0.0388 K+ pi- rho0 PHSP; +0.0924 K+ pi- pi- pi+ PHSP; +0.0692 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK0 +1.000 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.000 MyKs PHSP; +Enddecay +# +Decay MyKs +1.000 pi+ pi- PHSP; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +End + + + + + + + + diff --git a/BaBar_2014/BpBm_a1_Dstar0mpi0D0mKpimKpipi0.dec b/BaBar_2014/BpBm_a1_Dstar0mpi0D0mKpimKpipi0.dec new file mode 100644 index 0000000..ef8e30f --- /dev/null +++ b/BaBar_2014/BpBm_a1_Dstar0mpi0D0mKpimKpipi0.dec @@ -0,0 +1,59 @@ +## Charged B mesons decaying to D(*)0 a1+. + +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myanti-D*0 Mya_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyB- +1.000 MyD*0 Mya_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; +Enddecay +# +Decay MyD*0 +1.000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay MyD0 +0.500 K- pi+ PHSP; +0.500 K- pi+ pi0 D_DALITZ; +Enddecay +# +Decay Myanti-D0 +0.500 K+ pi- PHSP; +0.500 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay Mya_1+ +1.0000 Myrho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 Myrho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myrho0 +1.0000 pi+ pi- VSS; +Enddecay +End + + + + diff --git a/BaBar_2014/BpBm_a1f0.dec b/BaBar_2014/BpBm_a1f0.dec new file mode 100644 index 0000000..2b93ab6 --- /dev/null +++ b/BaBar_2014/BpBm_a1f0.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B+ -> a_1+ f0, f0->pi+pi- # +# # +# Author: Pierre-François Giraud # +# Created: 2004-04-07 # +# # +################################################### +# +# Decay table for B+ -> a_1+ pi0 +# using a Scalar to Vector Scalar Model (SVS) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf_0 f_0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 a_1+ Myf_0 SVS; +Enddecay +# +Decay MyB- +1.000 a_1- Myf_0 SVS; +Enddecay +# +Decay Myf_0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_a1pK0s.dec b/BaBar_2014/BpBm_a1pK0s.dec new file mode 100644 index 0000000..bc67ae6 --- /dev/null +++ b/BaBar_2014/BpBm_a1pK0s.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> a1+ K0s + c.c. # +# # +# Author: Matt Graham mgraham@slac.stanford.edu # +# Created: 30 Jan 2004 # +# # +################################################### +# +# Decay table for B+ -> a1+ K0s +# using a simple (S)calar to (V)ector-(S)calar model. +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +# include +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 a_1+ K_S0 SVS; +Enddecay +# +Decay MyB- +1.000 a_1- K_S0 SVS; +Enddecay + +End diff --git a/BaBar_2014/BpBm_a1pK0s_rho0pip.dec b/BaBar_2014/BpBm_a1pK0s_rho0pip.dec new file mode 100644 index 0000000..d342073 --- /dev/null +++ b/BaBar_2014/BpBm_a1pK0s_rho0pip.dec @@ -0,0 +1,50 @@ +################################################### +# # +# B+ -> a1+ K0s + c.c. # +# a1+ to rho0 pi+, K0s to pi+ pi- # +#created 20/03/04 F. Palombo (palombo@mi.infn.it) # +# # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +Alias myK_S0 K_S0 +# +# include +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 mya_1+ myK_S0 SVS; +Enddecay +# +Decay MyB- +1.000 mya_1- myK_S0 SVS; +Enddecay + +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay myK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# + +End + + + + diff --git a/BaBar_2014/BpBm_a1pK0s_rhoppi0.dec b/BaBar_2014/BpBm_a1pK0s_rhoppi0.dec new file mode 100644 index 0000000..4960cb3 --- /dev/null +++ b/BaBar_2014/BpBm_a1pK0s_rhoppi0.dec @@ -0,0 +1,50 @@ +################################################### +# # +# B+ -> a1+ K0s + c.c. # +# a1+ to rho+ pi0, K0s to pi+ pi- # +#created 20/03/04 F. Palombo (palombo@mi.infn.it) # +# # +# # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +Alias myK_S0 K_S0 +# +# include +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 mya_1+ myK_S0 SVS; +Enddecay +# +Decay MyB- +1.000 mya_1- myK_S0 SVS; +Enddecay + +# +Decay mya_1+ +1.0000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +# +Decay mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + + +Decay myK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# + +End + + + + diff --git a/BaBar_2014/BpBm_a1pi0.dec b/BaBar_2014/BpBm_a1pi0.dec new file mode 100644 index 0000000..480dfec --- /dev/null +++ b/BaBar_2014/BpBm_a1pi0.dec @@ -0,0 +1,31 @@ +################################################### +# # +# B+ -> a_1+ pi0 # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B+ -> a_1+ pi0 +# using a Scalar to Vector Scalar Model (SVS) +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 a_1+ pi0 SVS; +Enddecay +# +Decay MyB- +1.000 a_1- pi0 SVS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_a1pomega_rho0pipomega_ln.dec b/BaBar_2014/BpBm_a1pomega_rho0pipomega_ln.dec new file mode 100644 index 0000000..a7b4dc3 --- /dev/null +++ b/BaBar_2014/BpBm_a1pomega_rho0pipomega_ln.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B+ -> a1+ omega -> (rho0 pi+)(omega) # +# B- -> generic +cc # +# # +# Author: Jim Smith # +# e-mail: jgsmith@pizero.colorado.edu # +# Created: 03/24/2004 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_1+ omega SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_1- omega SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_a1pomega_rhoppi0omega_ln.dec b/BaBar_2014/BpBm_a1pomega_rhoppi0omega_ln.dec new file mode 100644 index 0000000..aa045e9 --- /dev/null +++ b/BaBar_2014/BpBm_a1pomega_rhoppi0omega_ln.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B+ -> a1+ omega -> (rho+ pi0)(omega) # +# B- -> generic +cc # +# # +# Author: Jim Smith # +# e-mail: jgsmith@pizero.colorado.edu # +# Created: 03/24/2004 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_1+ omega SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_1- omega SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_a1ppi0.dec b/BaBar_2014/BpBm_a1ppi0.dec new file mode 100644 index 0000000..e3fbd8a --- /dev/null +++ b/BaBar_2014/BpBm_a1ppi0.dec @@ -0,0 +1,45 @@ +########################################################### +# # +# Decay: B+ -> a1+ pi0 +cc # +# # +# # +# Author: Gian Gopal # +# Date: 19/March/99 # +# Modified; G.London 22/March/99 # +# A Bevan (from b0b0bar a1+pi- +cc) 29 March 01 # +########################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +0.5 MyB+ B- VSS ; +0.5 MyB- B+ VSS ; +Enddecay +# +Decay MyB+ +1.0000 mya_1+ pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_1- pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; +Enddecay +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End + + + + diff --git a/BaBar_2014/BpBm_a1ppi0_rhoppi0.dec b/BaBar_2014/BpBm_a1ppi0_rhoppi0.dec new file mode 100644 index 0000000..a939b25 --- /dev/null +++ b/BaBar_2014/BpBm_a1ppi0_rhoppi0.dec @@ -0,0 +1,39 @@ +################################################### +# # +# B+ -> a_1+ pi0 +cc (a_1+ -> rho+ pi0) # +# (a_1- -> rho- pi0) # +# # +# Author: D. Walker # +# Date: 23/03/04 # +################################################### + + +Alias MyB+ B+ +Alias MyB- B- + +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +ChargeConj Mya_1+ Mya_1- + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0000 Mya_1+ pi0 SVS; +Enddecay + +Decay MyB- +1.0000 Mya_1- pi0 SVS; +Enddecay + +Decay Mya_1+ +1.000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay Mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +End diff --git a/BaBar_2014/BpBm_a1prho0_rho0piprho0_ln.dec b/BaBar_2014/BpBm_a1prho0_rho0piprho0_ln.dec new file mode 100644 index 0000000..d4886e3 --- /dev/null +++ b/BaBar_2014/BpBm_a1prho0_rho0piprho0_ln.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B+ -> a1+ rho0 -> (rho0 pi+)(rho0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/14/2003 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_1+ rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_1- rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_a1prho0_rho0piprho0_tr.dec b/BaBar_2014/BpBm_a1prho0_rho0piprho0_tr.dec new file mode 100644 index 0000000..95978e8 --- /dev/null +++ b/BaBar_2014/BpBm_a1prho0_rho0piprho0_tr.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B+ -> a1+ rho0 -> (rho0 pi+)(rho0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/14/2003 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_1+ rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_1- rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_a1prho0_rhoppi0rho0_ln.dec b/BaBar_2014/BpBm_a1prho0_rhoppi0rho0_ln.dec new file mode 100644 index 0000000..8173ce2 --- /dev/null +++ b/BaBar_2014/BpBm_a1prho0_rhoppi0rho0_ln.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B+ -> a1+ rho0 -> (rho+ pi0)(rho0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/14/2003 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_1+ rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_1- rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_a1prho0_rhoppi0rho0_tr.dec b/BaBar_2014/BpBm_a1prho0_rhoppi0rho0_tr.dec new file mode 100644 index 0000000..8603568 --- /dev/null +++ b/BaBar_2014/BpBm_a1prho0_rhoppi0rho0_tr.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B+ -> a1+ rho0 -> (rho+ pi0)(rho0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/14/2003 # +# # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +ChargeConj mya_1+ mya_1- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 mya_1+ rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 mya_1- rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay mya_1+ +1.0000 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay mya_1- +1.0000 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_enu.dec b/BaBar_2014/BpBm_enu.dec new file mode 100644 index 0000000..d817c06 --- /dev/null +++ b/BaBar_2014/BpBm_enu.dec @@ -0,0 +1,35 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> e nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> e- nu_bar # +# | # +# -> X # +# Steven Robertson 08/06/01 adapted from B->munu # +# Joe Izen 12/13/99, (adapeted from B-> tau nu, Kevin Hall 12 Feb 1999 # +# Mail: STEVEN@SLAC.STANFORD.EDU # +########################################################################### +# Create our own versions of B-, B+ which will decay to e nu_e +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force myB to always decay to e nu_e +# +Decay myB- +1.0000 e- anti-nu_e PHOTOS SLN; +Enddecay +# +Decay myB+ +1.0000 e+ nu_e PHOTOS SLN; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_enugamma.dec b/BaBar_2014/BpBm_enugamma.dec new file mode 100644 index 0000000..bdcfb48 --- /dev/null +++ b/BaBar_2014/BpBm_enugamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> e- nu_ebar gamma # +# | # +# ->X # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 e+ nu_e gamma PHSP; +Enddecay +Decay myB- +1.0000 e- anti-nu_e gamma PHSP; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_enugamma_KM.dec b/BaBar_2014/BpBm_enugamma_KM.dec new file mode 100644 index 0000000..45c1a1d --- /dev/null +++ b/BaBar_2014/BpBm_enugamma_KM.dec @@ -0,0 +1,33 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> e- nu_ebar gamma # +# | # +# ->X # +# # +# # +# Uses tree-level matrix element from # +# Korchemsky, Pirjol, and Yan,Phy Rev D 61 (200) 114510 # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 e+ nu_e gamma LNUGAMMA 0.35 3.0 5.0; +Enddecay +Decay myB- +1.0000 e- anti-nu_e gamma LNUGAMMA 0.35 3.0 5.0; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_enugamma_KM_PH.dec b/BaBar_2014/BpBm_enugamma_KM_PH.dec new file mode 100644 index 0000000..f5e878c --- /dev/null +++ b/BaBar_2014/BpBm_enugamma_KM_PH.dec @@ -0,0 +1,33 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> e- nu_ebar gamma # +# | # +# ->X # +# # +# # +# Uses tree-level matrix element from # +# Korchemsky, Pirjol, and Yan,Phy Rev D 61 (200) 114510 # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 e+ nu_e gamma PHOTOS LNUGAMMA 0.35 3.0 5.0; +Enddecay +Decay myB- +1.0000 e- anti-nu_e gamma PHOTOS LNUGAMMA 0.35 3.0 5.0; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_enugamma_KM_PH_fa0.dec b/BaBar_2014/BpBm_enugamma_KM_PH_fa0.dec new file mode 100644 index 0000000..7b4a67a --- /dev/null +++ b/BaBar_2014/BpBm_enugamma_KM_PH_fa0.dec @@ -0,0 +1,33 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> e- nu_ebar gamma # +# | # +# ->X # +# # +# # +# Uses tree-level matrix element from # +# Korchemsky, Pirjol, and Yan,Phy Rev D 61 (200) 114510 # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 e+ nu_e gamma PHOTOS LNUGAMMA 0.35 3.0 5.0 1.0; +Enddecay +Decay myB- +1.0000 e- anti-nu_e gamma PHOTOS LNUGAMMA 0.35 3.0 5.0 1.0; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_epepKm_PHSP.dec b/BaBar_2014/BpBm_epepKm_PHSP.dec new file mode 100644 index 0000000..c1301b5 --- /dev/null +++ b/BaBar_2014/BpBm_epepKm_PHSP.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> e+ e+ K- + C.C. # +# # +# Author: John Back (jback@slac.stanford.edu) # +# created: 23 Oct 2002 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 e+ e+ K- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 e- e- K+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_epeppim_PHSP.dec b/BaBar_2014/BpBm_epeppim_PHSP.dec new file mode 100644 index 0000000..de19409 --- /dev/null +++ b/BaBar_2014/BpBm_epeppim_PHSP.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> e+ e+ pi- + C.C. # +# # +# Author: John Back (jback@slac.stanford.edu) # +# created: 23 Oct 2002 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 e+ e+ pi- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 e- e- pi+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_epmupKm_PHSP.dec b/BaBar_2014/BpBm_epmupKm_PHSP.dec new file mode 100644 index 0000000..0addb1a --- /dev/null +++ b/BaBar_2014/BpBm_epmupKm_PHSP.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> e+ mu+ K- + C.C. # +# # +# Author: John Back (jback@slac.stanford.edu) # +# created: 23 Oct 2002 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 e+ mu+ K- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 e- mu- K+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_epmuppim_PHSP.dec b/BaBar_2014/BpBm_epmuppim_PHSP.dec new file mode 100644 index 0000000..082f29d --- /dev/null +++ b/BaBar_2014/BpBm_epmuppim_PHSP.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> e+ mu+ pi- + C.C. # +# # +# Author: John Back (jback@slac.stanford.edu) # +# created: 23 Oct 2002 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 e+ mu+ pi- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 e- mu- pi+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_etac2K2piK.dec b/BaBar_2014/BpBm_etac2K2piK.dec new file mode 100644 index 0000000..c22367d --- /dev/null +++ b/BaBar_2014/BpBm_etac2K2piK.dec @@ -0,0 +1,34 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> 2pi 2K # +# + cc # +# # +# Author: G. London M.Langer # +# Created: 24/Oktober/2000 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.0210 pi+ pi- K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etac2phiK.dec b/BaBar_2014/BpBm_etac2phiK.dec new file mode 100644 index 0000000..aead7a8 --- /dev/null +++ b/BaBar_2014/BpBm_etac2phiK.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +#### OUT ########## |-> 4K ####### OUT ################### +# |-> phi phi # +# + cc # +# # +# Author: G. London # +# Created: 17/November/99 # +# Modified: 09/July/2001 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +Alias MyPhi phi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +#0.0370 K+ K- K+ K- PHSP; +0.0080 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etac2rhoK.dec b/BaBar_2014/BpBm_etac2rhoK.dec new file mode 100644 index 0000000..1582bed --- /dev/null +++ b/BaBar_2014/BpBm_etac2rhoK.dec @@ -0,0 +1,39 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> rho0 rho0 # +# + cc # +# # +# Author: G. London # +# Created: 12/December/2000 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +1.0000 MyRho0 MyRho0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyRho0 +1.0000 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etac4KK.dec b/BaBar_2014/BpBm_etac4KK.dec new file mode 100644 index 0000000..1ff2b9c --- /dev/null +++ b/BaBar_2014/BpBm_etac4KK.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> 4K # +# |-> phi phi # +# + cc # +# # +# Author: G. London # +# Created: 17/November/99 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +Alias MyPhi phi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.0370 K+ K- K+ K- PHSP; +0.0080 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etac4piK.dec b/BaBar_2014/BpBm_etac4piK.dec new file mode 100644 index 0000000..2033106 --- /dev/null +++ b/BaBar_2014/BpBm_etac4piK.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> 4pi # +# # +# + cc # +# # +# Author: G. London M.Langer # +# Created: 25/Oktober/00 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.0120 pi+ pi- pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etacFourKK.dec b/BaBar_2014/BpBm_etacFourKK.dec new file mode 100644 index 0000000..f3ccd43 --- /dev/null +++ b/BaBar_2014/BpBm_etacFourKK.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> 4K # +######## OUT ###### |-> phi phi ######## OUT ############# +# + cc # +# # +# Author: G. London # +# Created: 17/November/99 # +# Modified: 09/July/2001 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +Alias MyPhi phi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.0370 K+ K- K+ K- PHSP; +#0.0080 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etacKKpi0K.dec b/BaBar_2014/BpBm_etacKKpi0K.dec new file mode 100644 index 0000000..935246f --- /dev/null +++ b/BaBar_2014/BpBm_etacKKpi0K.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> K+ K- pi0 # +# # +# + cc # +# # +# Author: G. London M.Langer # +# Created: 24/October/2000 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.0180 K+ K- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etacKSKpiK.dec b/BaBar_2014/BpBm_etacKSKpiK.dec new file mode 100644 index 0000000..ae0b936 --- /dev/null +++ b/BaBar_2014/BpBm_etacKSKpiK.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> KS K pi # +# + cc # +# # +# Author: G. London M.Langer # +# Created: 14/October/2000 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +Alias MyEta_c eta_c +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.0240 MyK_S0 K+ pi- PHSP; +0.0240 MyK_S0 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etacKstarKpiK.dec b/BaBar_2014/BpBm_etacKstarKpiK.dec new file mode 100644 index 0000000..7a00d54 --- /dev/null +++ b/BaBar_2014/BpBm_etacKstarKpiK.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> K*0 K- pi+ # +# + cc # +# # +# Author: G. London # +# Created: 17/November/2000 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.500 MyK*0 K- pi+ PHSP; +0.500 MyK*0bar K+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etaceta2piK.dec b/BaBar_2014/BpBm_etaceta2piK.dec new file mode 100644 index 0000000..808a0d0 --- /dev/null +++ b/BaBar_2014/BpBm_etaceta2piK.dec @@ -0,0 +1,38 @@ +############################################################ +# # +# Decay: B- -> Eta_c K-, B+ -> X # +# | # +# | # +# |-> eta 2pi # +# + cc # +# # +# Author: G. London M.Langer # +# Created: 24/October/2000 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta_c eta_c +Alias MyEta eta +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyEta_c +0.0550 MyEta pi+ pi- PHSP; +Enddecay +Decay MyEta +1.0000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etalnu_FLATQ2.dec b/BaBar_2014/BpBm_etalnu_FLATQ2.dec new file mode 100644 index 0000000..76df1c7 --- /dev/null +++ b/BaBar_2014/BpBm_etalnu_FLATQ2.dec @@ -0,0 +1,38 @@ +############################################################################### +# This is a DECAY.DEC file for FLATQ2 Decays of B+(-) -> eta l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> eta l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# CONTACT: cote@slac.stanford.edu # +# # +############################################################################### +# Create our own versions of B-, B+ which will decay to eta l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to eta l nu +# +Decay myB- +0.5000 eta e- anti-nu_e FLATQ2; +0.5000 eta mu- anti-nu_mu FLATQ2; +Enddecay +# +Decay myB+ +0.5000 eta e+ nu_e FLATQ2; +0.5000 eta mu+ nu_mu FLATQ2; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_etalnu_ISGW2.dec b/BaBar_2014/BpBm_etalnu_ISGW2.dec new file mode 100644 index 0000000..ce37cba --- /dev/null +++ b/BaBar_2014/BpBm_etalnu_ISGW2.dec @@ -0,0 +1,35 @@ +############################################################################### +# This is a DECAY.DEC file for B+(-) -> eta l nu : # +# # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> eta l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# Mail: cote@SLAC.STANFORD.EDU # +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to eta l nu +# +Decay myB- +0.5000 eta e- anti-nu_e PHOTOS ISGW2; +0.5000 eta mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +Decay myB+ +0.5000 eta e+ nu_e PHOTOS ISGW2; +0.5000 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etalnu_phsp.dec b/BaBar_2014/BpBm_etalnu_phsp.dec new file mode 100644 index 0000000..84b4b70 --- /dev/null +++ b/BaBar_2014/BpBm_etalnu_phsp.dec @@ -0,0 +1,40 @@ +############################################################################### +# This is a DECAY.DEC file for phase space Decays of B+(-) -> eta l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> eta l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# CONTACT: cote@slac.stanford.edu # +# # +############################################################################### +# Create our own versions of B-, B+ which will decay to pi0 l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to eta l nu +# +Decay myB- +0.5000 eta e- anti-nu_e PHOTOS PHSP; +0.5000 eta mu- anti-nu_mu PHOTOS PHSP; +Enddecay +# +Decay myB+ +0.5000 eta e+ nu_e PHOTOS PHSP; +0.5000 eta mu+ nu_mu PHOTOS PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etam3pi_K.dec b/BaBar_2014/BpBm_etam3pi_K.dec new file mode 100644 index 0000000..67c0c91 --- /dev/null +++ b/BaBar_2014/BpBm_etam3pi_K.dec @@ -0,0 +1,56 @@ + #################################################### + # # + # Decay: B- -> eta K- B+ -> X + c.c. # + # | # + # | # + # ! # + # ! -> pi+ pi- pi0 # + # # + # # + # # + # Author: F. Palombo # + # Created: 14/March/00 # + # Submitted by F. Palombo (palombo@mi.infn.it) # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta K+ PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etam3pi_KstmK0pi.dec b/BaBar_2014/BpBm_etam3pi_KstmK0pi.dec new file mode 100644 index 0000000..cb20094 --- /dev/null +++ b/BaBar_2014/BpBm_etam3pi_KstmK0pi.dec @@ -0,0 +1,58 @@ + #################################################### + # # + # Decay: B- -> eta K*- B+ -> X + c.c. # + # | | # + # | -> K0 pi- # + # | # + # -> pi+ pi- pi0 # + # # + # # + # Author: J. Smith 22/March/00 # + # # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +ChargeConj MyB+ MyB- +ChargeConj MyKstar+ MyKstar- +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyKstar- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyKstar+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etam3pi_KstmK0pim2pi0.dec b/BaBar_2014/BpBm_etam3pi_KstmK0pim2pi0.dec new file mode 100644 index 0000000..74258c5 --- /dev/null +++ b/BaBar_2014/BpBm_etam3pi_KstmK0pim2pi0.dec @@ -0,0 +1,61 @@ + #################################################### + # # + # Decay: B- -> eta K*- B+ -> X + c.c. # + # | | # + # | -> K0 pi- # + # | | # + # | -> pi0 pi0 # + # | # + # -> pi+ pi- pi0 # + # # + # # + # Author: Keith Ulmer keith.ulmer@colorado.edu # + # Created: March 19 2004 # + # # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +ChargeConj MyB+ MyB- +ChargeConj MyKstar+ MyKstar- +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyKstar- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyKstar+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etam3pi_KstmKpi0.dec b/BaBar_2014/BpBm_etam3pi_KstmKpi0.dec new file mode 100644 index 0000000..8f1766e --- /dev/null +++ b/BaBar_2014/BpBm_etam3pi_KstmKpi0.dec @@ -0,0 +1,53 @@ + #################################################### + # # + # Decay: B- -> eta K*- B+ -> X + c.c. # + # | | # + # | -> K- pi0 # + # | # + # -> pi+ pi- pi0 # + # # + # # + # Author: J. Smith 22/March/00 # + # # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar+ K*+ +Alias MyKstar- K*- +ChargeConj MyB+ MyB- +ChargeConj MyKstar+ MyKstar- +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyKstar- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyKstar+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etam3pi_pi.dec b/BaBar_2014/BpBm_etam3pi_pi.dec new file mode 100644 index 0000000..51f6238 --- /dev/null +++ b/BaBar_2014/BpBm_etam3pi_pi.dec @@ -0,0 +1,56 @@ + #################################################### + # # + # Decay: B- -> eta pi- B+ -> X + c.c. # + # | # + # | # + # ! # + # ! -> pi+ pi- pi0 # + # # + # # + # # + # Author: F. Palombo # + # Created: 14/March/00 # + # Submitted by F. Palombo (palombo@mi.infn.it) # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etam3pi_rhompipi0.dec b/BaBar_2014/BpBm_etam3pi_rhompipi0.dec new file mode 100644 index 0000000..e534b01 --- /dev/null +++ b/BaBar_2014/BpBm_etam3pi_rhompipi0.dec @@ -0,0 +1,45 @@ +################################################### +# # +# B+-> eta rho+ , B0~ -> X + c.c. # +# |-> pi+pi0 # +# |-> 3pi # +# Author: Mirna van Hoek # +# e-mail: mirna@slac.stanford.edu # +# Created: 2001/05/29 # +################################################### +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyRho+ rho+ +Alias MyRho- rho- +ChargeConj MyB+ MyB- +ChargeConj MyRho+ MyRho- +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyRho- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyRho+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +Decay MyRho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.000 pi- pi0 VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_etamgg_K.dec b/BaBar_2014/BpBm_etamgg_K.dec new file mode 100644 index 0000000..35808f4 --- /dev/null +++ b/BaBar_2014/BpBm_etamgg_K.dec @@ -0,0 +1,56 @@ + #################################################### + # # + # Decay: B- -> eta K- B+ -> X + c.c. # + # | # + # | # + # ! # + # ! -> gamma gamma # + # # + # # + # # + # Author: F. Palombo # + # Created: 14/March/00 # + # Submitted by F. Palombo (palombo@mi.infn.it) # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta K+ PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etamgg_KstmK0pi.dec b/BaBar_2014/BpBm_etamgg_KstmK0pi.dec new file mode 100644 index 0000000..7a0a42c --- /dev/null +++ b/BaBar_2014/BpBm_etamgg_KstmK0pi.dec @@ -0,0 +1,57 @@ + #################################################### + # # + # Decay: B- -> eta K*- B+ -> X + c.c. # + # | | # + # | -> K0 pi- # + # | # + # -> gamma gamma # + # # + # # + # Author: J. Smith 22/March/00 # + # # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +ChargeConj MyB+ MyB- +ChargeConj MyKstar+ MyKstar- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyKstar- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyKstar+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etamgg_KstmK0pim2pi0.dec b/BaBar_2014/BpBm_etamgg_KstmK0pim2pi0.dec new file mode 100644 index 0000000..d7bfab8 --- /dev/null +++ b/BaBar_2014/BpBm_etamgg_KstmK0pim2pi0.dec @@ -0,0 +1,60 @@ + #################################################### + # # + # Decay: B- -> eta K*- B+ -> X + c.c. # + # | | # + # | -> K0 pi- # + # | | # + # | -> pi0 pi0 # + # | # + # -> gamma gamma # + # # + # # + # Author: Keith Ulmer keith.ulmer@colorado.edu # + # Created: March 19 2004 # + # # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +ChargeConj MyB+ MyB- +ChargeConj MyKstar+ MyKstar- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyKstar- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyKstar+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etamgg_KstmKpi0.dec b/BaBar_2014/BpBm_etamgg_KstmKpi0.dec new file mode 100644 index 0000000..c212b51 --- /dev/null +++ b/BaBar_2014/BpBm_etamgg_KstmKpi0.dec @@ -0,0 +1,52 @@ + #################################################### + # # + # Decay: B- -> eta K*- B+ -> X + c.c. # + # | | # + # | -> K- pi0 # + # | # + # -> gamma gamma # + # # + # # + # Author: J. Smith 22/March/00 # + # # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar+ K*+ +Alias MyKstar- K*- +ChargeConj MyB+ MyB- +ChargeConj MyKstar+ MyKstar- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyKstar- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyKstar+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_etamgg_pi.dec b/BaBar_2014/BpBm_etamgg_pi.dec new file mode 100644 index 0000000..3acebca --- /dev/null +++ b/BaBar_2014/BpBm_etamgg_pi.dec @@ -0,0 +1,56 @@ + #################################################### + # # + # Decay: B- -> eta pi- B+ -> X + c.c. # + # | # + # | # + # ! # + # ! -> gamma gamma # + # # + # # + # # + # Author: F. Palombo # + # Created: 14/March/00 # + # Submitted by F. Palombo (palombo@mi.infn.it) # + ##################################################### + + +# +# + + +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta pi+ PHSP; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etamgg_rhompipi0.dec b/BaBar_2014/BpBm_etamgg_rhompipi0.dec new file mode 100644 index 0000000..6672530 --- /dev/null +++ b/BaBar_2014/BpBm_etamgg_rhompipi0.dec @@ -0,0 +1,45 @@ +################################################### +# # +# B+-> eta rho+ , B0~ -> X + c.c. # +# |-> pi+pi0 # +# |-> 2gamma # +# Author: Mirna van Hoek # +# e-mail: mirna@slac.stanford.edu # +# Created: 2001/05/29 # +################################################### +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +Alias MyRho+ rho+ +Alias MyRho- rho- +ChargeConj MyB+ MyB- +ChargeConj MyRho+ MyRho- +# +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 MyRho- Myeta SVS; +Enddecay +# +Decay MyB+ +1.0000 MyRho+ Myeta SVS; +Enddecay +# +Decay Myeta +1.0000 gamma gamma PHSP; +Enddecay +# +Decay MyRho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.000 pi- pi0 VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kpi0.dec b/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kpi0.dec new file mode 100644 index 0000000..3a82d64 --- /dev/null +++ b/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kpi0.dec @@ -0,0 +1,59 @@ + ######################################################## + # # + # Decay: B+ -> eta' K*+ B- -> X + C.C # + # | | # + # | |-> K+ pi0 # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: Paul C. Bloom # + # Created: July 18 2001 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar+ K*+ +Alias MyKstar- K*- + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyKstar+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyKstar- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kspi.dec b/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kspi.dec new file mode 100644 index 0000000..5481035 --- /dev/null +++ b/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kspi.dec @@ -0,0 +1,65 @@ + ######################################################## + # # + # Decay: B+ -> eta' K*+ B- -> X + C.C # + # | | # + # | |-> Ks pi+ # + # | |->pi+pi- # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: Paul C. Bloom # + # Created: July 18 2001 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyKstar+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyKstar- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kspi_2pi0.dec b/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kspi_2pi0.dec new file mode 100644 index 0000000..d6e8cb3 --- /dev/null +++ b/BaBar_2014/BpBm_etapKstar_eta2pi_gg_Kspi_2pi0.dec @@ -0,0 +1,65 @@ + ######################################################## + # # + # Decay: B+ -> eta' K*+ B- -> X + C.C # + # | | # + # | |-> Ks pi+ # + # | |->pi0pi0 # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: Keith Ulmer keith.ulmer@colorado.edu # + # Created: March 19 2004 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyEta eta +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyKstar+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyKstar- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etapKstar_rhog_Kpi0.dec b/BaBar_2014/BpBm_etapKstar_rhog_Kpi0.dec new file mode 100644 index 0000000..b078527 --- /dev/null +++ b/BaBar_2014/BpBm_etapKstar_rhog_Kpi0.dec @@ -0,0 +1,57 @@ + ######################################################## + # # + # Decay: B+ -> eta' K*+ B- -> X + C.C # + # | | # + # | |-> K pi0 # + # | # + # |-> rho gamma # + # |-> pi+ pi- # + # # + # # + # Author: Paul C. Bloom # + # Created: July 18 2001 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyKstar+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyKstar- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 K+ pi0 VSS; +Enddecay +# +Decay MyKstar- +1.000 K- pi0 VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etapKstar_rhog_Kspi.dec b/BaBar_2014/BpBm_etapKstar_rhog_Kspi.dec new file mode 100644 index 0000000..36086ab --- /dev/null +++ b/BaBar_2014/BpBm_etapKstar_rhog_Kspi.dec @@ -0,0 +1,63 @@ + ######################################################## + # # + # Decay: B+ -> eta' K*+ B- -> X + C.C # + # | | # + # | |-> Ks pi+ # + # | |->pi+pi- # + # | # + # |-> rho gamma # + # |-> pi+ pi- # + # # + # # + # Author: Paul C. Bloom # + # Created: July 18 2001 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyKstar+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyKstar- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etapKstar_rhog_Kspi_2pi0.dec b/BaBar_2014/BpBm_etapKstar_rhog_Kspi_2pi0.dec new file mode 100644 index 0000000..c9ae53e --- /dev/null +++ b/BaBar_2014/BpBm_etapKstar_rhog_Kspi_2pi0.dec @@ -0,0 +1,63 @@ + ######################################################## + # # + # Decay: B+ -> eta' K*+ B- -> X + C.C # + # | | # + # | |-> Ks pi+ # + # | |->pi0pi0 # + # | # + # |-> rho gamma # + # |-> pi+ pi- # + # # + # # + # Author: Keith Ulmer keith.ulmer@colorado.edu # + # Created: March 19 2004 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +Alias MyRho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyKstar+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyKstar- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyKstar+ +1.000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi0 pi0 PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etaplnu_FLATQ2.dec b/BaBar_2014/BpBm_etaplnu_FLATQ2.dec new file mode 100644 index 0000000..9e6a381 --- /dev/null +++ b/BaBar_2014/BpBm_etaplnu_FLATQ2.dec @@ -0,0 +1,38 @@ +############################################################################### +# This is a DECAY.DEC file for FLATQ2 Decays of B+(-) -> eta' l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> eta' l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# CONTACT: cote@slac.stanford.edu # +# # +############################################################################### +# Create our own versions of B-, B+ which will decay to eta' l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to eta' l nu +# +Decay myB- +0.5000 eta' e- anti-nu_e FLATQ2; +0.5000 eta' mu- anti-nu_mu FLATQ2; +Enddecay +# +Decay myB+ +0.5000 eta' e+ nu_e FLATQ2; +0.5000 eta' mu+ nu_mu FLATQ2; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_etapm5pi_K.dec b/BaBar_2014/BpBm_etapm5pi_K.dec new file mode 100644 index 0000000..2a501d5 --- /dev/null +++ b/BaBar_2014/BpBm_etapm5pi_K.dec @@ -0,0 +1,61 @@ + #################################################### + # # + # Decay: B- -> eta' K- B+ -> X + c.c. # + # | # + # | # + # |-> eta pi+ pi- # + # | # + # | # + # |-> pi+ pi- pi0 # + # # + # Author: F. Palombo # + # Created: 14/March/00 # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + # # + ##################################################### + + +# +# + +Alias Myeta' eta' +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta' K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta' K+ PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etapm5pi_pi.dec b/BaBar_2014/BpBm_etapm5pi_pi.dec new file mode 100644 index 0000000..eb2a6a5 --- /dev/null +++ b/BaBar_2014/BpBm_etapm5pi_pi.dec @@ -0,0 +1,61 @@ + #################################################### + # # + # Decay: B- -> eta' pi- B+ -> X + c.c. # + # | # + # | # + # |-> eta pi+ pi- # + # | # + # | # + # |-> pi+ pi- pi0 # + # # + # Author: F. Palombo # + # Created: 14/March/00 # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + # # + ##################################################### + + +# +# + +Alias Myeta' eta' +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta' pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta' pi+ PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.0000 pi+ pi- pi0 ETA_DALITZ; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etapmgg2pi_K.dec b/BaBar_2014/BpBm_etapmgg2pi_K.dec new file mode 100644 index 0000000..b2172b8 --- /dev/null +++ b/BaBar_2014/BpBm_etapmgg2pi_K.dec @@ -0,0 +1,60 @@ + #################################################### + # # + # Decay: B- -> eta' K- B+ -> X + c.c. # + # | # + # |-> eta pi+ pi- # + # | # + # | # + # |-> gamma gamma # + # # + # Author: F. Palombo, J. Smith # + # Created: 11/February/99 # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + # # + ##################################################### + + +# +# + +Alias Myeta' eta' +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta' K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta' K+ PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etapmgg2pi_pi.dec b/BaBar_2014/BpBm_etapmgg2pi_pi.dec new file mode 100644 index 0000000..b034416 --- /dev/null +++ b/BaBar_2014/BpBm_etapmgg2pi_pi.dec @@ -0,0 +1,60 @@ + #################################################### + # # + # Decay: B- -> eta' pi- B+ -> X + c.c. # + # | # + # |-> eta pi+ pi- # + # | # + # | # + # |-> gamma gamma # + # # + # Author: F. Palombo, J. Smith # + # Created: 11/February/99 # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + # # + ##################################################### + + +# +# + +Alias Myeta' eta' +Alias Myeta eta +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta' pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta' pi+ PHSP; +Enddecay +# +Decay Myeta' +1.0000 pi+ pi- Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etapmrho0g_K.dec b/BaBar_2014/BpBm_etapmrho0g_K.dec new file mode 100644 index 0000000..5cd417e --- /dev/null +++ b/BaBar_2014/BpBm_etapmrho0g_K.dec @@ -0,0 +1,64 @@ + #################################################### + # # + # Decay: B- -> eta' K- B+ -> X + c.c. # + # | # + # | # + # | # + # |-> gamma rho0 # + # | # + # |-> pi+ pi- # + # # + # Author: F. Palombo, J. Smith # + # Created: 11/February/99 # + # Corrected eta' decay (march 00) # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + # # + ##################################################### + + +# +# + +Alias Myeta' eta' +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta' K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta' K+ PHSP; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etapmrho0g_pi.dec b/BaBar_2014/BpBm_etapmrho0g_pi.dec new file mode 100644 index 0000000..b1cb705 --- /dev/null +++ b/BaBar_2014/BpBm_etapmrho0g_pi.dec @@ -0,0 +1,62 @@ + #################################################### + # # + # Decay: B- -> eta' pi- B+ -> X + c.c. # + # | # + # | # + # | # + # |-> gamma rho0 # + # | # + # |-> pi+ pi- # + # # + # Author: F. Palombo, J. Smith # + # Created: 11/February/99 # + # Corrected eta' decay (march 00) # + # Submitted by F. Palombo ( palombo@mi.infn.it) # + # # + ##################################################### +# +# + +Alias Myeta' eta' +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB- +1.0000 Myeta' pi- PHSP; +Enddecay +# +Decay MyB+ +1.0000 Myeta' pi+ PHSP; +Enddecay +# +Decay Myeta' +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/BpBm_etaprhoc_eta2pi_gg_2pi.dec b/BaBar_2014/BpBm_etaprhoc_eta2pi_gg_2pi.dec new file mode 100644 index 0000000..5dc1839 --- /dev/null +++ b/BaBar_2014/BpBm_etaprhoc_eta2pi_gg_2pi.dec @@ -0,0 +1,59 @@ + ######################################################## + # # + # Decay: B+ (B-)-> eta' rho+ TheOtherB0-> X # + # | | # + # | |-> pi+ pi0 # + # | # + # |-> pi+ pi- eta # + # |-> gamma gamma # + # # + # # + # # + # Author: Paul C. Bloom # + # Created: July 18 2001 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyEta eta +Alias MyRho+ rho+ +Alias MyRho- rho- + +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyRho+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyRho- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 pi+ pi- MyEta PHSP; +Enddecay +# +Decay MyEta +1.000 gamma gamma PHSP; +Enddecay +# +Decay MyRho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.000 pi- pi0 VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_etaprhoc_rhog_2pi.dec b/BaBar_2014/BpBm_etaprhoc_rhog_2pi.dec new file mode 100644 index 0000000..8bf2520 --- /dev/null +++ b/BaBar_2014/BpBm_etaprhoc_rhog_2pi.dec @@ -0,0 +1,58 @@ + ######################################################## + # # + # Decay: B+ (B-)-> eta' rho+ TheOtherB0-> X # + # | | # + # | |-> pi+ pi0 # + # | # + # |-> rho0 gamma # + # |-> pi+ pi- # + # # + # # + # # + # Author: Paul C. Bloom # + # Created: July 18, 2001 # + # # + ######################################################## + + + +Alias MyB+ B+ +Alias MyB- B- +Alias MyEta' eta' +Alias MyRho0 rho0 +Alias MyRho+ rho+ +Alias MyRho- rho- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 B+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 MyRho+ MyEta' SVS; +Enddecay +# +Decay MyB- +1.000 MyRho- MyEta' SVS; +Enddecay +# +Decay MyEta' +1.000 MyRho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho0 +1.000 pi+ pi- VSS; +Enddecay +# +Decay MyRho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.000 pi- pi0 VSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpBm_f01370Kp_f0pipi.dec b/BaBar_2014/BpBm_f01370Kp_f0pipi.dec new file mode 100644 index 0000000..e341ab2 --- /dev/null +++ b/BaBar_2014/BpBm_f01370Kp_f0pipi.dec @@ -0,0 +1,50 @@ +################################################### +# # +# B+ -> f0(1370) K+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Kelly Ford # +# Created: 06-Feb-04 # +# Using Andreas Hoecker's f'0 patch # +# # +################################################### +# +# Decay table for B+ -> f0(1370) K+ using phase space. +# The f0(1370) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0-1370) = 1.434 +- 0.018 GeV/c^2 +# G(f0-1370) = 0.173 +- 0.032 GeV/c^2 +# ) +# +Particle f'_0 1.434 0.173 +# +ChangeMassMin f'_0 0.40 +ChangeMassMax f'_0 2.50 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf'0 f'_0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf'0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myf'0 K- PHSP; +Enddecay +# +Decay Myf'0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_f0Kp_f0mpipi.dec b/BaBar_2014/BpBm_f0Kp_f0mpipi.dec new file mode 100644 index 0000000..bbd7889 --- /dev/null +++ b/BaBar_2014/BpBm_f0Kp_f0mpipi.dec @@ -0,0 +1,55 @@ +################################################### +# # +# B+ -> f0(980) K+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Kelly Ford # +# Created: 06/Feb/04 # +# # +# Taken from f0(980) Ks patch by Andreas Hoecker # +# # +################################################### +# +# Decay table for B+ -> f0(980) K+ using phase space. +# The f0(980) decays to pi+ pi-. +# +# BEGIN sp5 patch +# ( +# note: the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen +# +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# ) +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf0 f_0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myf0 K- PHSP; +Enddecay +# +Decay Myf0 +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_f0pi_f0topipi.dec b/BaBar_2014/BpBm_f0pi_f0topipi.dec new file mode 100644 index 0000000..6f93189 --- /dev/null +++ b/BaBar_2014/BpBm_f0pi_f0topipi.dec @@ -0,0 +1,49 @@ +################################################### +# # +# B+ -> f0(980) pi+ + C.C. # +# | # +# `--> pi+ pi- # +# # +# John Back (jback@slac.stanford.edu) # +# Created: 21st Jan 2004 # +# # +################################################### +# +# Decay table for B+ -> f0(980) pi+ using phase space. +# The f0(980) decays to pi+ pi-. +# Note that the results from the ordinary BW fit +# are used and not those from the coupled +# channel BW, which is not in EvtGen. +# +# Mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0) = 0.975 +- 0.003 GeV/c^2 +# G(f0) = 0.044 +- 0.002 +- 0.002 GeV/c^2 +# +Particle f_0 0.975 0.044 +# +ChangeMassMin f_0 0.40 +ChangeMassMax f_0 1.30 +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf_0 f_0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf_0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myf_0 pi- PHSP; +Enddecay +# +Decay Myf_0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_f2Kp_f2mpipi.dec b/BaBar_2014/BpBm_f2Kp_f2mpipi.dec new file mode 100644 index 0000000..954189f --- /dev/null +++ b/BaBar_2014/BpBm_f2Kp_f2mpipi.dec @@ -0,0 +1,40 @@ +################################################### +# # +# B0 -> f2(1270) K+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Kelly Ford # +# Created: 06-Feb-2004 # +# # +################################################### +# +# Decay table for B+ -> f2(1270) K+ +# The f2 decays to pi+ pi- using the TSS model +# f2(1270) resonance parameters unchanged (seem ok in pdg.table) +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myf2 f_2 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myf2 K+ STS; +Enddecay +# +Decay MyB- +1.000 Myf2 K- STS; +Enddecay +# +Decay Myf2 +1.000 pi- pi+ TSS; +Enddecay +End + + + diff --git a/BaBar_2014/BpBm_generic.dec b/BaBar_2014/BpBm_generic.dec new file mode 100644 index 0000000..c3fe7dd --- /dev/null +++ b/BaBar_2014/BpBm_generic.dec @@ -0,0 +1,16 @@ +################################################### +# # +# Generic charged B decays # +# # +# # +# Contact:Anders Ryd (ryd@slac.stanford.edu) # +# Created: 22/Nov/99 # +################################################### +# +# +Decay Upsilon(4S) +1.00000 B+ B- VSS; +Enddecay +# +# +End diff --git a/BaBar_2014/BpBm_genericKstar_ee_Ball.dec b/BaBar_2014/BpBm_genericKstar_ee_Ball.dec new file mode 100644 index 0000000..3e307ef --- /dev/null +++ b/BaBar_2014/BpBm_genericKstar_ee_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(generic) e+ e- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K*+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K*- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_genericKstar_mumu_Ball.dec b/BaBar_2014/BpBm_genericKstar_mumu_Ball.dec new file mode 100644 index 0000000..ef26adf --- /dev/null +++ b/BaBar_2014/BpBm_genericKstar_mumu_Ball.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> K*+(generic) mu+ mu- + c.c. # +# # +# # +# # +# Author: S.Willocq (willocq@slac.stanford.edu) # +# created: 1/Jun/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.50 MyB+ B- VSS; +0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 K*+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 K*- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_kkkkk.dec b/BaBar_2014/BpBm_kkkkk.dec new file mode 100644 index 0000000..0c9c38f --- /dev/null +++ b/BaBar_2014/BpBm_kkkkk.dec @@ -0,0 +1,37 @@ +############################################################ +# # +# Decay: B0 -> K+K-K+K- K # +# B0bar -> generic # +# # +# Author: Prafulla Kumar Behera # +# e-mail: behera@slac.stanford.edu # +# Created: 04/29/2004 # +# # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 K+ K- K+ K- K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 K+ K- K- K+ K- PHSP; +Enddecay +# + +End + + diff --git a/BaBar_2014/BpBm_lambdalambdak.dec b/BaBar_2014/BpBm_lambdalambdak.dec new file mode 100644 index 0000000..d9f4df5 --- /dev/null +++ b/BaBar_2014/BpBm_lambdalambdak.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: B+B- -> Lambda antiLambda k # +# # +# Author: S. Saremi Oct/02/03 # +################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +# +Decay Upsilon(4S) +1.000 B+ B- MyB+ MyB- VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyLambda0 Myanti-Lambda0 K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyLambda0 Myanti-Lambda0 K- PHSP; +Enddecay +# +Decay MyLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_lambdalambdapi.dec b/BaBar_2014/BpBm_lambdalambdapi.dec new file mode 100644 index 0000000..788b497 --- /dev/null +++ b/BaBar_2014/BpBm_lambdalambdapi.dec @@ -0,0 +1,36 @@ +################################################### +# # +# Decay: B+B- -> Lambda antiLambda pi # +# # +# Author: S. Saremi Oct/02/03 # +################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +# +Decay Upsilon(4S) +1.000 B+ B- MyB+ MyB- VSS_BMIX dm; +Enddecay +# +Decay MyB+ +1.000 MyLambda0 Myanti-Lambda0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyLambda0 Myanti-Lambda0 pi- PHSP; +Enddecay +# +Decay MyLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_lambdapbargamma.dec b/BaBar_2014/BpBm_lambdapbargamma.dec new file mode 100644 index 0000000..206f0ae --- /dev/null +++ b/BaBar_2014/BpBm_lambdapbargamma.dec @@ -0,0 +1,28 @@ +Alias MyB+ B+ +Alias MyB- B- +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB- +1.000 MyLambda0 anti-p- gamma B_TO_LAMBDA_PBAR_GAMMA; +Enddecay + +Decay MyB+ +1.000 Myanti-Lambda0 p+ gamma B_TO_LAMBDA_PBAR_GAMMA; +Enddecay + +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay + +Decay Myanti-Lambda0 +1.00 anti-p- pi+ PHSP; +Enddecay + +End + diff --git a/BaBar_2014/BpBm_lambdaproton.dec b/BaBar_2014/BpBm_lambdaproton.dec new file mode 100644 index 0000000..6be41df --- /dev/null +++ b/BaBar_2014/BpBm_lambdaproton.dec @@ -0,0 +1,38 @@ +################################################### +# # +# B- -> Lambda pbar +cc # +# # +# Author: Aaron Roodman # +# created: 26/Aug/02 # +################################################### +# +# Decay table for B- -> pi- pi0 using a simple PHSP +# model. +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-Lambda0 p+ PHSP; +Enddecay +# +Decay MyB- +1.00 MyLambda0 anti-p- PHSP; +Enddecay +# +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay +# +Decay Myanti-Lambda0 +1.00 anti-p- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_lnugamma.dec b/BaBar_2014/BpBm_lnugamma.dec new file mode 100644 index 0000000..628ac5e --- /dev/null +++ b/BaBar_2014/BpBm_lnugamma.dec @@ -0,0 +1,31 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> l- nubar gamma (l - e or mu) # +# | # +# ->X # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +.50000 e+ nu_e gamma PHSP; +.50000 mu+ nu_mu gamma PHSP; +Enddecay +Decay myB- +.50000 e- anti-nu_e gamma PHSP; +.50000 mu- anti-nu_mu gamma PHSP; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_munu.dec b/BaBar_2014/BpBm_munu.dec new file mode 100644 index 0000000..5fed174 --- /dev/null +++ b/BaBar_2014/BpBm_munu.dec @@ -0,0 +1,34 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> mu nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> mu- nu_bar # +# | # +# -> X # +# Joe Izen 12/13/99, (adapeted from B-> tau nu, Kevin Hall 12 Feb 1999 # +# Mail: JOE@SLAC.STANFORD.EDU +########################################################################### +# Create our own versions of B-, B+ which will decay to tau nu_tau +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force myB to always decay to mu nu_tau +# +Decay myB- +1.0000 mu- anti-nu_mu PHOTOS SLN; +Enddecay +# +Decay myB+ +1.0000 mu+ nu_mu PHOTOS SLN; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_munugamma.dec b/BaBar_2014/BpBm_munugamma.dec new file mode 100644 index 0000000..3c0504e --- /dev/null +++ b/BaBar_2014/BpBm_munugamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> mu- nu_mubar gamma # +# | # +# ->X # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 mu+ nu_mu gamma PHSP; +Enddecay +Decay myB- +1.0000 mu- anti-nu_mu gamma PHSP; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_munugamma_KM.dec b/BaBar_2014/BpBm_munugamma_KM.dec new file mode 100644 index 0000000..aa5d5bb --- /dev/null +++ b/BaBar_2014/BpBm_munugamma_KM.dec @@ -0,0 +1,33 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> mu- nu_mubar gamma # +# | # +# ->X # +# # +# # +# Uses tree-level matrix element from # +# Korchemsky, Pirjol, and Yan,Phy Rev D 61 (200) 114510 # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 mu+ nu_mu gamma LNUGAMMA 0.35 3.0 5.0; +Enddecay +Decay myB- +1.0000 mu- anti-nu_mu gamma LNUGAMMA 0.35 3.0 5.0; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_munugamma_KM_PH.dec b/BaBar_2014/BpBm_munugamma_KM_PH.dec new file mode 100644 index 0000000..755533d --- /dev/null +++ b/BaBar_2014/BpBm_munugamma_KM_PH.dec @@ -0,0 +1,33 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> mu- nu_mubar gamma # +# | # +# ->X # +# # +# # +# Uses tree-level matrix element from # +# Korchemsky, Pirjol, and Yan,Phy Rev D 61 (200) 114510 # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 mu+ nu_mu gamma PHOTOS LNUGAMMA 0.35 3.0 5.0; +Enddecay +Decay myB- +1.0000 mu- anti-nu_mu gamma PHOTOS LNUGAMMA 0.35 3.0 5.0; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_munugamma_KM_PH_fa0.dec b/BaBar_2014/BpBm_munugamma_KM_PH_fa0.dec new file mode 100644 index 0000000..2357908 --- /dev/null +++ b/BaBar_2014/BpBm_munugamma_KM_PH_fa0.dec @@ -0,0 +1,33 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> mu- nu_mubar gamma # +# | # +# ->X # +# # +# # +# Uses tree-level matrix element from # +# Korchemsky, Pirjol, and Yan,Phy Rev D 61 (200) 114510 # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 mu+ nu_mu gamma PHOTOS LNUGAMMA 0.35 3.0 5.0 1.0; +Enddecay +Decay myB- +1.0000 mu- anti-nu_mu gamma PHOTOS LNUGAMMA 0.35 3.0 5.0 1.0; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_mupmupKm_PHSP.dec b/BaBar_2014/BpBm_mupmupKm_PHSP.dec new file mode 100644 index 0000000..d10e80c --- /dev/null +++ b/BaBar_2014/BpBm_mupmupKm_PHSP.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> mu+ mu+ K- + C.C. # +# # +# Author: John Back (jback@slac.stanford.edu) # +# created: 23 Oct 2002 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 mu+ mu+ K- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 mu- mu- K+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_mupmuppim_PHSP.dec b/BaBar_2014/BpBm_mupmuppim_PHSP.dec new file mode 100644 index 0000000..1d94564 --- /dev/null +++ b/BaBar_2014/BpBm_mupmuppim_PHSP.dec @@ -0,0 +1,32 @@ +################################################### +# # +# B+ -> mu+ mu+ pi- + C.C. # +# # +# Author: John Back (jback@slac.stanford.edu) # +# created: 23 Oct 2002 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 mu+ mu+ pi- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 mu- mu- pi+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_noSLemu_noSLemu.dec b/BaBar_2014/BpBm_noSLemu_noSLemu.dec new file mode 100644 index 0000000..3bd3375 --- /dev/null +++ b/BaBar_2014/BpBm_noSLemu_noSLemu.dec @@ -0,0 +1,575 @@ +############################################################################### +# Decay file for Y(4S) -> B+ B- +# | | +# | --> non-SL +# -----> non-SL +# +# Prepared by D. Kirkby (kirkby@hep.stanford.edu) +# Last change 15 Nov 1999 +############################################################################### + +## define aliases with restricted decay modes (which are specified below) + +Alias B+_SL-e B+ +Alias B+_SL-mu B+ +Alias B+_no-SL B+ + +Alias B-_SL-e B- +Alias B-_SL-mu B- +Alias B-_no-SL B- + +## define charge conjugate relationships between aliases + +ChargeConj B+_SL-e B-_SL-e +ChargeConj B+_SL-mu B-_SL-mu +ChargeConj B+_no-SL B-_no-SL + +## Y(4S) decays only to B0 B0bar, with mixing but no CP violation + +Decay Upsilon(4S) + 1.0 B+_no-SL B-_no-SL VSS; +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-e + +# b -> c e+ nu (10.4%) + +0.0490 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_10 e+ nu_e PHOTOS ISGW2; +0.0040 anti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0070 anti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e+ nu (0.0891%) + +0.000032 pi0 e+ nu_e PHOTOS ISGW2; +0.000012 eta e+ nu_e PHOTOS ISGW2; +0.000125 rho0 e+ nu_e PHOTOS ISGW2; +0.000125 omega e+ nu_e PHOTOS ISGW2; +0.000020 eta' e+ nu_e PHOTOS ISGW2; +0.000137 a_10 e+ nu_e PHOTOS ISGW2; +0.000080 b_10 e+ nu_e PHOTOS ISGW2; +0.000012 a_00 e+ nu_e PHOTOS ISGW2; +0.000006 f_0 e+ nu_e PHOTOS ISGW2; +0.000006 f'_0 e+ nu_e PHOTOS ISGW2; +0.000068 f_1 e+ nu_e PHOTOS ISGW2; +0.000068 f'_1 e+ nu_e PHOTOS ISGW2; +0.000040 h_1 e+ nu_e PHOTOS ISGW2; +0.000040 h'_1 e+ nu_e PHOTOS ISGW2; +0.000060 f_2 e+ nu_e PHOTOS ISGW2; +0.000060 f'_2 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; +0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_SL-mu + +# b -> c mu+ nu (10.4%) + +0.0490 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0040 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0070 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu+ nu (0.0891%) + +0.000032 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000012 eta mu+ nu_mu PHOTOS ISGW2; +0.000125 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000125 omega mu+ nu_mu PHOTOS ISGW2; +0.000020 eta' mu+ nu_mu PHOTOS ISGW2; +0.000137 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000080 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000012 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000006 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000068 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000060 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; +0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into an +## electron (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-e + +# b -> c e- nu (10.4%) + +0.0490 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_10 e- anti-nu_e PHOTOS ISGW2; +0.0040 D_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0070 D'_10 e- anti-nu_e PHOTOS ISGW2; +0.0070 D_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; + +# b -> u e- nu (0.0891%) + +0.000032 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000012 eta e- anti-nu_e PHOTOS ISGW2; +0.000125 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000125 omega e- anti-nu_e PHOTOS ISGW2; +0.000020 eta' e- anti-nu_e PHOTOS ISGW2; +0.000137 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000080 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000012 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000006 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000006 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000068 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000068 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000040 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000060 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000060 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; +0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B- which is forced to decay semileptonically into a +## muon (10.5% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_SL-mu + +# b -> c mu- nu (10.4%) + +0.0490 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0040 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0070 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; + +# b -> u mu- nu (0.0891%) + +0.000032 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000125 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000125 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000020 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000137 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000080 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000012 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000006 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000068 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000040 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000060 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; +0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B+_no-SL + +# b -> c tau+ nu (2.96%) + +0.0160 anti-D*0 tau+ nu_tau ISGW2; +0.0070 anti-D0 tau+ nu_tau ISGW2; +0.0013 anti-D_10 tau+ nu_tau ISGW2; +0.0013 anti-D_0*0 tau+ nu_tau ISGW2; +0.0020 anti-D'_10 tau+ nu_tau ISGW2; +0.0020 anti-D_2*0 tau+ nu_tau ISGW2; + +# b -> u tau+ nu (0.0298%) + +0.000010 pi0 tau+ nu_tau ISGW2; +0.000004 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000007 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; +0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; + +# b -> tau+ nu (0.005%) + +0.000050 tau+ nu_tau SLN; + +# Exclusive hadronic b->u (0.0037%) + +0.000026 pi+ pi0 pi0 CB3PI-P00 alpha; +0.000011 pi+ pi+ pi- CB3PI-MPP alpha; + +# B -> cc= s (1.95%) + +0.0009 J/psi K+ SVS; +0.0015 J/psi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi K0 pi+ PHSP; +0.0005 J/psi K+ pi0 PHSP; +0.0014 J/psi K+ pi- pi+ PHSP; +0.0007 J/psi K+ pi0 pi0 PHSP; +0.0007 J/psi K0 pi+ pi0 PHSP; +0.0005 J/psi K'_1+ PHSP; +0.0005 J/psi K_2*+ PHSP; +# +0.0006 psi(2S) K+ SVS; +0.0015 psi(2S) K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) K0 pi+ PHSP; +0.0002 psi(2S) K+ pi0 PHSP; +0.0004 psi(2S) K+ pi- pi+ PHSP; +0.0002 psi(2S) K+ pi0 pi0 PHSP; +0.0002 psi(2S) K0 pi+ pi0 PHSP; +# +0.0002 eta_c K+ PHSP; +0.0003 K*+ eta_c SVS; +0.0002 eta_c K0 pi+ PHSP; +0.0001 eta_c K+ pi0 PHSP; +0.0002 eta_c K+ pi- pi+ PHSP; +0.0001 eta_c K+ pi0 pi0 PHSP; +0.0001 eta_c K0 pi+ pi0 PHSP; +# +0.0002 chi_c0 K+ PHSP; +0.0003 K*+ chi_c0 SVS; +0.0002 chi_c0 K0 pi+ PHSP; +0.0001 chi_c0 K+ pi0 PHSP; +0.0002 chi_c0 K+ pi- pi+ PHSP; +0.0001 chi_c0 K+ pi0 pi0 PHSP; +0.0001 chi_c0 K0 pi+ pi0 PHSP; +# +0.0006 chi_c1 K+ SVS; +0.0012 chi_c1 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 K0 pi+ PHSP; +0.0002 chi_c1 K+ pi0 PHSP; +0.0004 chi_c1 K+ pi- pi+ PHSP; +0.0002 chi_c1 K+ pi0 pi0 PHSP; +0.0002 chi_c1 K0 pi+ pi0 PHSP; +# +0.0004 chi_c2 K+ PHSP; +0.0009 chi_c2 K*+ PHSP; +0.0004 chi_c2 K0 pi+ PHSP; +0.0002 chi_c2 K+ pi0 PHSP; +0.0004 chi_c2 K+ pi- pi+ PHSP; +0.0002 chi_c2 K+ pi0 pi0 PHSP; +0.0002 chi_c2 K0 pi+ pi0 PHSP; + +# b -> c (sc=) -> D Ds X (10.14%) + +0.0096 anti-D0 D_s+ PHSP; +0.0102 anti-D*0 D_s+ SVS; +0.0120 anti-D_10 D_s+ SVS; +0.0094 D_s*+ anti-D0 SVS; +0.0174 D_s*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0060 D_s+ D- pi+ PHSP; +0.0030 D_s+ anti-D0 pi0 PHSP; +0.0060 D_s*+ D- pi+ PHSP; +0.0030 D_s*+ anti-D0 pi0 PHSP; +0.0055 D_s+ D- pi+ pi0 PHSP; +0.0055 D_s+ anti-D0 pi+ pi- PHSP; +0.0014 D_s+ anti-D0 pi0 pi0 PHSP; +0.0055 D_s*+ D- pi+ pi0 PHSP; +0.0055 D_s*+ anti-D0 pi+ pi- PHSP; +0.0014 D_s*+ anti-D0 pi0 pi0 PHSP; + +# b -> c (sc=) -> D D= K X (8%) + +0.0025 anti-D0 D0 K+ PHSP; +0.0025 anti-D0 D+ K0 PHSP; +0.0025 anti-D0 D0 K*+ PHSP; +0.0025 anti-D0 D+ K*0 PHSP; +# +0.0050 anti-D*0 D0 K+ PHSP; +0.0050 anti-D*0 D+ K0 PHSP; +0.0050 anti-D0 D*0 K+ PHSP; +0.0050 anti-D0 D*+ K0 PHSP; +# +0.0025 anti-D*0 D0 K*+ PHSP; +0.0025 anti-D*0 D+ K*0 PHSP; +0.0025 anti-D0 D*0 K*+ PHSP; +0.0025 anti-D0 D*+ K*0 PHSP; +# +0.0150 anti-D*0 D*0 K+ PHSP; +0.0150 anti-D*0 D*+ K0 PHSP; +0.0050 anti-D*0 D*0 K*+ PHSP; +0.0050 anti-D*0 D*+ K*0 PHSP; + +# B -> D(*) X Exclusive Modes (8.26%) + +0.0050 anti-D*0 pi+ SVS; +0.0048 anti-D0 pi+ PHSP; +0.0132 anti-D0 rho+ PHSP; +0.0147 anti-D*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0015 anti-D_10 pi+ PHSP; +0.0007 anti-D_10 rho+ PHSP; +0.0005 anti-D0 pi0 pi+ PHSP; +0.0005 anti-D*0 pi0 pi+ PHSP; +0.0005 D- pi+ pi+ PHSP; +0.0005 D*- pi+ pi+ PHSP; +# +0.0042 a_1+ anti-D0 SVS; +0.0041 anti-D0 rho0 pi+ PHSP; +0.0041 anti-D0 pi- pi+ pi+ PHSP; +0.0183 anti-D*0 a_1+ PHSP; +0.0005 anti-D*0 rho0 pi+ PHSP; +0.0005 anti-D*0 pi- pi+ pi+ PHSP; +# +0.0020 D- rho+ pi+ PHSP; +0.0020 D- pi0 pi+ pi+ PHSP; +0.0020 D*- rho+ pi+ PHSP; +0.0020 D*- pi0 pi+ pi+ PHSP; +0.0005 anti-D*0 rho+ pi0 PHSP; +0.0005 anti-D*0 pi+ pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.04000 anti-cd_1 uu_1 JETSET 23; + +# Xi_c X (2.4%) + +0.02400 anti-cs_1 uu_1 JETSET 23; + +# misc fragmentation (41.277%) + +0.33327 u anti-d anti-c u JETSET 48; +0.04300 u anti-d anti-c u JETSET 25; +0.02250 u anti-s anti-c u JETSET 23; +0.00000 c anti-s anti-c u JETSET 13; +0.00400 c anti-d anti-c u JETSET 13; +0.00600 u anti-d anti-u u JETSET 48; +0.00400 c anti-s anti-u u JETSET 48; + +Enddecay + +##----------------------------------------------------------------------------- +## define a B+ which is forced to NOT decay semileptonically into either +## an electron or muon (79.0% of all decays) +##----------------------------------------------------------------------------- + +Decay B-_no-SL + +# b -> c tau- nu (2.96%) + +0.0160 D*0 tau- anti-nu_tau ISGW2; +0.0070 D0 tau- anti-nu_tau ISGW2; +0.0013 D_10 tau- anti-nu_tau ISGW2; +0.0013 D_0*0 tau- anti-nu_tau ISGW2; +0.0020 D'_10 tau- anti-nu_tau ISGW2; +0.0020 D_2*0 tau- anti-nu_tau ISGW2; + +# b -> u tau- nu (0.0298%) + +0.000010 pi0 tau- anti-nu_tau ISGW2; +0.000004 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000007 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +0.000000 D(2S)0 tau- anti-nu_tau ISGW2; +0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; + +# b -> tau- nu (0.005%) + +0.000050 tau- anti-nu_tau SLN; + +# Exclusive hadronic b->u (0.0037%) + +0.000026 pi- pi0 pi0 CB3PI-P00 alpha; +0.000011 pi- pi- pi+ CB3PI-MPP alpha; + +# B -> cc= s (1.95%) + +0.0009 J/psi K- SVS; +0.0015 J/psi K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0010 J/psi anti-K0 pi- PHSP; +0.0005 J/psi K- pi0 PHSP; +0.0014 J/psi K- pi+ pi- PHSP; +0.0007 J/psi K- pi0 pi0 PHSP; +0.0007 J/psi anti-K0 pi- pi0 PHSP; +0.0005 J/psi K'_1- PHSP; +0.0005 J/psi K_2*- PHSP; +# +0.0006 psi(2S) K- SVS; +0.0015 psi(2S) K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 psi(2S) anti-K0 pi- PHSP; +0.0002 psi(2S) K- pi0 PHSP; +0.0004 psi(2S) K- pi+ pi- PHSP; +0.0002 psi(2S) K- pi0 pi0 PHSP; +0.0002 psi(2S) anti-K0 pi- pi0 PHSP; +# +0.0002 eta_c K- PHSP; +0.0003 K*- eta_c SVS; +0.0002 eta_c anti-K0 pi- PHSP; +0.0001 eta_c K- pi0 PHSP; +0.0002 eta_c K- pi+ pi- PHSP; +0.0001 eta_c K- pi0 pi0 PHSP; +0.0001 eta_c anti-K0 pi- pi0 PHSP; +# +0.0002 chi_c0 K- PHSP; +0.0003 K*- chi_c0 SVS; +0.0002 chi_c0 anti-K0 pi- PHSP; +0.0001 chi_c0 K- pi0 PHSP; +0.0002 chi_c0 K- pi+ pi- PHSP; +0.0001 chi_c0 K- pi0 pi0 PHSP; +0.0001 chi_c0 anti-K0 pi- pi0 PHSP; +# +0.0006 chi_c1 K- SVS; +0.0012 chi_c1 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0004 chi_c1 anti-K0 pi- PHSP; +0.0002 chi_c1 K- pi0 PHSP; +0.0004 chi_c1 K- pi+ pi- PHSP; +0.0002 chi_c1 K- pi0 pi0 PHSP; +0.0002 chi_c1 anti-K0 pi- pi0 PHSP; +# +0.0004 chi_c2 K- PHSP; +0.0009 chi_c2 K*- PHSP; +0.0004 chi_c2 anti-K0 pi- PHSP; +0.0002 chi_c2 K- pi0 PHSP; +0.0004 chi_c2 K- pi+ pi- PHSP; +0.0002 chi_c2 K- pi0 pi0 PHSP; +0.0002 chi_c2 anti-K0 pi- pi0 PHSP; + +# b -> c (sc=) -> D Ds X (10.14%) + +0.0096 D0 D_s- PHSP; +0.0102 D*0 D_s- SVS; +0.0120 D_10 D_s- SVS; +0.0094 D_s*- D0 SVS; +0.0174 D_s*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0060 D_s- D+ pi- PHSP; +0.0030 D_s- D0 pi0 PHSP; +0.0060 D_s*- D+ pi- PHSP; +0.0030 D_s*- D0 pi0 PHSP; +0.0055 D_s- D+ pi- pi0 PHSP; +0.0055 D_s- D0 pi- pi+ PHSP; +0.0014 D_s- D0 pi0 pi0 PHSP; +0.0055 D_s*- D+ pi- pi0 PHSP; +0.0055 D_s*- D0 pi- pi+ PHSP; +0.0014 D_s*- D0 pi0 pi0 PHSP; + +# b -> c (sc=) -> D D= K X (8%) + +0.0025 D0 anti-D0 K- PHSP; +0.0025 D0 D- anti-K0 PHSP; +0.0025 D0 anti-D0 K*- PHSP; +0.0025 D0 D- anti-K*0 PHSP; +# +0.0050 D*0 anti-D0 K- PHSP; +0.0050 D*0 D- anti-K0 PHSP; +0.0050 D0 anti-D*0 K- PHSP; +0.0050 D0 D*- anti-K0 PHSP; +# +0.0025 D*0 anti-D0 K*- PHSP; +0.0025 D*0 D- anti-K*0 PHSP; +0.0025 D0 anti-D*0 K*- PHSP; +0.0025 D0 D*- anti-K*0 PHSP; +# +0.0150 D*0 anti-D*0 K- PHSP; +0.0150 D*0 D*- anti-K0 PHSP; +0.0050 D*0 anti-D*0 K*- PHSP; +0.0050 D*0 D*- anti-K*0 PHSP; + +# B -> D(*) X Exclusive Modes (8.26%) + +0.0050 D*0 pi- SVS; +0.0048 D0 pi- PHSP; +0.0132 D0 rho- PHSP; +0.0147 D*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0015 D_10 pi- PHSP; +0.0007 D_10 rho- PHSP; +0.0005 D0 pi0 pi- PHSP; +0.0005 D*0 pi0 pi- PHSP; +0.0005 D+ pi- pi- PHSP; +0.0005 D*+ pi- pi- PHSP; +# +0.0042 a_1- D0 SVS; +0.0041 D0 rho0 pi- PHSP; +0.0041 D0 pi+ pi- pi- PHSP; +0.0183 D*0 a_1- PHSP; +0.0005 D*0 rho0 pi- PHSP; +0.0005 D*0 pi+ pi- pi- PHSP; +# +0.0020 D+ rho- pi- PHSP; +0.0020 D+ pi0 pi- pi- PHSP; +0.0020 D*+ rho- pi- PHSP; +0.0020 D*+ pi0 pi- pi- PHSP; +0.0005 D*0 rho- pi0 PHSP; +0.0005 D*0 pi- pi0 pi0 PHSP; + +# Lam_c X / Sigma_c X (4.0%) + +0.04000 cd_1 anti-uu_1 JETSET 23; + +# Xi_c X (2.4%) + +0.02400 cs_1 anti-uu_1 JETSET 23; + +# misc fragmentation (41.277%) + +0.33327 anti-u d c anti-u JETSET 48; +0.04300 anti-u d c anti-u JETSET 25; +0.02250 anti-u s c anti-u JETSET 23; +0.00000 anti-c s c anti-u JETSET 13; +0.00400 anti-c d c anti-u JETSET 13; +0.00600 anti-u d u anti-u JETSET 48; +0.00400 anti-c s u anti-u JETSET 48; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_omegaK.dec b/BaBar_2014/BpBm_omegaK.dec new file mode 100644 index 0000000..00b15a6 --- /dev/null +++ b/BaBar_2014/BpBm_omegaK.dec @@ -0,0 +1,46 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> omega K : # +# Upsilon(4S) -> B+ B- +CC # +# | | # +# | -> omega K- # +# | | # +# | -> pi+ pi- pi0 # +# | # +# -> X # +# # +# # +# Jean Roy (jroy@pizero.colorado.edu) 23-NOV-1999 # +# # +########################################################################### +# Create our own versions of B-, B+ which will decay to omega pi +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# Create our own omega to force it to decay to three pions +# +Alias myOmega omega +# +Decay myOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# force myB- and myB+ to always decay to myOmega pi +# +Decay myB- +1.000 myOmega K- SVS; +Enddecay +# +Decay myB+ +1.000 myOmega K+ SVS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaKstarp_KSpip.dec b/BaBar_2014/BpBm_omegaKstarp_KSpip.dec new file mode 100644 index 0000000..eb88887 --- /dev/null +++ b/BaBar_2014/BpBm_omegaKstarp_KSpip.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B+ -> omega K*0+ -> (pi+pi-pi0)(Kspi+) # +# B- -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK_S0 K_S0 + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 Myomega MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaKstarp_KSpip_ln.dec b/BaBar_2014/BpBm_omegaKstarp_KSpip_ln.dec new file mode 100644 index 0000000..781c8bf --- /dev/null +++ b/BaBar_2014/BpBm_omegaKstarp_KSpip_ln.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B+ -> omega K*0+ -> (pi+pi-pi0)(Kspi+) # +# B- -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK_S0 K_S0 + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 Myomega MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaKstarp_KSpip_tr.dec b/BaBar_2014/BpBm_omegaKstarp_KSpip_tr.dec new file mode 100644 index 0000000..8eab767 --- /dev/null +++ b/BaBar_2014/BpBm_omegaKstarp_KSpip_tr.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B+ -> omega K*0+ -> (pi+pi-pi0)(Kspi+) # +# B- -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega +Alias MyK_S0 K_S0 + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 Myomega MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaKstarp_Kppi0.dec b/BaBar_2014/BpBm_omegaKstarp_Kppi0.dec new file mode 100644 index 0000000..d91172f --- /dev/null +++ b/BaBar_2014/BpBm_omegaKstarp_Kppi0.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: B+ -> omega K*0+ -> (pi+pi-pi0)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 Myomega MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# + + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaKstarp_Kppi0_ln.dec b/BaBar_2014/BpBm_omegaKstarp_Kppi0_ln.dec new file mode 100644 index 0000000..91c5f3d --- /dev/null +++ b/BaBar_2014/BpBm_omegaKstarp_Kppi0_ln.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: B+ -> omega K*0+ -> (pi+pi-pi0)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 Myomega MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# + + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaKstarp_Kppi0_tr.dec b/BaBar_2014/BpBm_omegaKstarp_Kppi0_tr.dec new file mode 100644 index 0000000..3e6727a --- /dev/null +++ b/BaBar_2014/BpBm_omegaKstarp_Kppi0_tr.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: B+ -> omega K*0+ -> (pi+pi-pi0)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Qinghua Guo # +# e-mail: ppenn@slac.stanford.edu # +# Created: 03/22/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias Myomega omega + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 Myomega MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# + + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaRhop_ln.dec b/BaBar_2014/BpBm_omegaRhop_ln.dec new file mode 100644 index 0000000..08720fd --- /dev/null +++ b/BaBar_2014/BpBm_omegaRhop_ln.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: B+ -> omega rho+ -> (pi+pi-pi0)(pi+pi0) # +# B- -> generic +cc # +# # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 07/13/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyRho+ rho+ +Alias MyRho- rho- +Alias Myomega omega + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 Myomega MyRho+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyRho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyRho+ +1.0000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.0000 pi- pi0 VSS; +Enddecay +# + + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegaRhop_tr.dec b/BaBar_2014/BpBm_omegaRhop_tr.dec new file mode 100644 index 0000000..c47ed50 --- /dev/null +++ b/BaBar_2014/BpBm_omegaRhop_tr.dec @@ -0,0 +1,57 @@ +############################################################ +# # +# Decay: B+ -> omega rho+ -> (pi+pi-pi0)(pi+pi0) # +# B- -> generic +cc # +# # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 07/13/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyRho+ rho+ +Alias MyRho- rho- +Alias Myomega omega + + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + + +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 Myomega MyRho+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# + +Decay MyB- +1.0000 Myomega MyRho- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyRho+ +1.0000 pi+ pi0 VSS; +Enddecay +# +Decay MyRho- +1.0000 pi- pi0 VSS; +Enddecay +# + + +Decay Myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegalnu.dec b/BaBar_2014/BpBm_omegalnu.dec new file mode 100644 index 0000000..8555b76 --- /dev/null +++ b/BaBar_2014/BpBm_omegalnu.dec @@ -0,0 +1,36 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> omega l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> omega l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# Mail: NATALIA@SLAC.STANFORD.EDU +########################################################################### +# Create our own versions of B-, B+ which will decay to omega l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to omega l nu +# +Decay myB- +0.5000 omega e- anti-nu_e PHOTOS ISGW2; +0.5000 omega mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB+ +0.5000 omega e+ nu_e PHOTOS ISGW2; +0.5000 omega mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegalnu_FLATQ2.dec b/BaBar_2014/BpBm_omegalnu_FLATQ2.dec new file mode 100644 index 0000000..862e756 --- /dev/null +++ b/BaBar_2014/BpBm_omegalnu_FLATQ2.dec @@ -0,0 +1,36 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> omega l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> omega l- nu_bar (l = e or mu) # +# | # +# -> X # +# CONTACT: cote@slac.stanford.edu # +# # +########################################################################### +# Create our own versions of B-, B+ which will decay to omega l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to omega l nu +# +Decay myB- +0.5000 omega e- anti-nu_e FLATQ2; +0.5000 omega mu- anti-nu_mu FLATQ2; +Enddecay +# +Decay myB+ +0.5000 omega e+ nu_e FLATQ2; +0.5000 omega mu+ nu_mu FLATQ2; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegalnu_lcsr.dec b/BaBar_2014/BpBm_omegalnu_lcsr.dec new file mode 100644 index 0000000..e49c234 --- /dev/null +++ b/BaBar_2014/BpBm_omegalnu_lcsr.dec @@ -0,0 +1,36 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> omega l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> omega l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# LCSR model +########################################################################### +# Create our own versions of B-, B+ which will decay to omega l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to omega l nu +# +Decay myB- +0.5000 omega e- anti-nu_e PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +0.5000 omega mu- anti-nu_mu PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +Enddecay +# +Decay myB+ +0.5000 omega e+ nu_e PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +0.5000 omega mu+ nu_mu PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegalnu_phsp.dec b/BaBar_2014/BpBm_omegalnu_phsp.dec new file mode 100644 index 0000000..a4ea17d --- /dev/null +++ b/BaBar_2014/BpBm_omegalnu_phsp.dec @@ -0,0 +1,36 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> omega l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> omega l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# Phase space +########################################################################### +# Create our own versions of B-, B+ which will decay to omega l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to omega l nu +# +Decay myB- +0.5000 omega e- anti-nu_e PHOTOS PHSP; +0.5000 omega mu- anti-nu_mu PHOTOS PHSP; +Enddecay +# +Decay myB+ +0.5000 omega e+ nu_e PHOTOS PHSP; +0.5000 omega mu+ nu_mu PHOTOS PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_omegapi.dec b/BaBar_2014/BpBm_omegapi.dec new file mode 100644 index 0000000..684972b --- /dev/null +++ b/BaBar_2014/BpBm_omegapi.dec @@ -0,0 +1,46 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> omega pi : # +# Upsilon(4S) -> B+ B- +CC # +# | | # +# | -> omega pi- # +# | | # +# | -> pi+ pi- pi0 # +# | # +# -> X # +# # +# # +# Jean Roy (jroy@pizero.colorado.edu) 23-NOV-1999 # +# # +########################################################################### +# Create our own versions of B-, B+ which will decay to omega pi +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# Create our own omega to force it to decay to three pions +# +Alias myOmega omega +# +Decay myOmega +1.000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +# force myB- and myB+ to always decay to myOmega pi +# +Decay myB- +1.000 myOmega pi- SVS; +Enddecay +# +Decay myB+ +1.000 myOmega pi+ SVS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKSpip.dec b/BaBar_2014/BpBm_phiKSpip.dec new file mode 100644 index 0000000..70a9b60 --- /dev/null +++ b/BaBar_2014/BpBm_phiKSpip.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B+ -> phi KS pi+ (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyPhi MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyPhi MyK_S0 pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKSpip_phiK0LK0S.dec b/BaBar_2014/BpBm_phiKSpip_phiK0LK0S.dec new file mode 100644 index 0000000..a071430 --- /dev/null +++ b/BaBar_2014/BpBm_phiKSpip_phiK0LK0S.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B+ -> phi KS pi+ (phi->K0LK0S)(non-resonant)# +# B- -> generic +cc # +# # +# Author: Haibo LI # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyPhi MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyPhi MyK_S0 pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKp.dec b/BaBar_2014/BpBm_phiKp.dec new file mode 100644 index 0000000..de44892 --- /dev/null +++ b/BaBar_2014/BpBm_phiKp.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B- -> phi K-, B+ -> X # +# |-> K+K- # +# # +# + cc # +# # +# Author: Alexandre (Sasha) Telnov # +# e-mail: avtelnov@slac.stanford.edu # +# Created: 1999/10/27 # +############################################################ + +Alias MyPhi phi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyPhi K- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKppi0.dec b/BaBar_2014/BpBm_phiKppi0.dec new file mode 100644 index 0000000..48c4b99 --- /dev/null +++ b/BaBar_2014/BpBm_phiKppi0.dec @@ -0,0 +1,37 @@ +############################################################ +# # +# Decay: B+ -> phi K+ pi0 (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyPhi K+ pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 MyPhi K- pi0 PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKst1430_KLpip.dec b/BaBar_2014/BpBm_phiKst1430_KLpip.dec new file mode 100644 index 0000000..a13a284 --- /dev/null +++ b/BaBar_2014/BpBm_phiKst1430_KLpip.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B+ -> phi K*+(1430) -> (K+K-)(KLpi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# Modified by: Matt Graham... # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K_2*+ +Alias MyK*- K_2*- +Alias MyPhi phi + +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K_L0 pi+ TSS; +Enddecay +# +Decay MyK*- +1.0000 K_L0 pi- TSS; +Enddecay +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKst1430_KSpip.dec b/BaBar_2014/BpBm_phiKst1430_KSpip.dec new file mode 100644 index 0000000..e588f6b --- /dev/null +++ b/BaBar_2014/BpBm_phiKst1430_KSpip.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*+(1430) -> (K+K-)(KSpi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K_2*+ +Alias MyK*- K_2*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ TSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- TSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKst1430_Kppi0.dec b/BaBar_2014/BpBm_phiKst1430_Kppi0.dec new file mode 100644 index 0000000..273d6db --- /dev/null +++ b/BaBar_2014/BpBm_phiKst1430_Kppi0.dec @@ -0,0 +1,48 @@ +############################################################ +# # +# Decay: B+ -> phi K*+(1430) -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K_2*+ +Alias MyK*- K_2*- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 TSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 TSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstar1430p_K0LK0S_KSpip.dec b/BaBar_2014/BpBm_phiKstar1430p_K0LK0S_KSpip.dec new file mode 100644 index 0000000..31b4366 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstar1430p_K0LK0S_KSpip.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*(1430)+ -> (K0LK0S)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K_2*+ +Alias MyK*- K_2*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ TSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- TSS; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_3piKSpip_ln.dec b/BaBar_2014/BpBm_phiKstarp_3piKSpip_ln.dec new file mode 100644 index 0000000..724b91d --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_3piKSpip_ln.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (pi+pi-pi0)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_3piKSpip_tr.dec b/BaBar_2014/BpBm_phiKstarp_3piKSpip_tr.dec new file mode 100644 index 0000000..153c240 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_3piKSpip_tr.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (pi+pi-pi0)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_3piKppi0_ln.dec b/BaBar_2014/BpBm_phiKstarp_3piKppi0_ln.dec new file mode 100644 index 0000000..b844476 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_3piKppi0_ln.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (pi+pi-pi0)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_3piKppi0_tr.dec b/BaBar_2014/BpBm_phiKstarp_3piKppi0_tr.dec new file mode 100644 index 0000000..4c40685 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_3piKppi0_tr.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (pi+pi-pi0)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 06/19/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_ln.dec b/BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_ln.dec new file mode 100644 index 0000000..3ac03ca --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_ln.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K0LK0S)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_tr.dec b/BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_tr.dec new file mode 100644 index 0000000..0d619b9 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_K0LK0S_KSpip_tr.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K0LK0S)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Haibo Li # +# e-mail: lihb@slac.stanford.edu # +# Created: 11/05/2003 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyPhi +1.0000 MyK_S0 K_L0 VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_KLpip.dec b/BaBar_2014/BpBm_phiKstarp_KLpip.dec new file mode 100644 index 0000000..6da2678 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KLpip.dec @@ -0,0 +1,72 @@ +############################################################ +# # +# Decay: B- -> phi K*-, B+ -> X # +# |-> K+K- |-> Kl pi+ # +# # +# + cc # +# # +# Author: Maha. K # +# e-mail: kmaha@slac.stanford.edu # +# Created: 2003/02/14 # +############################################################ +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# MyB+, MyB- and MyPhi (etc. )will decay not as a normal B+- or phi would, but +# as I tell them to +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_L0 K_L0 +# +# The Upsilon decay part is simple in the B+/B- case; for B0/B0bar look +# at other files to see how people define mixing parameters +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'SVS' means 'Scalar -> Vector + Scalar', etc. +Decay MyB+ +1.0000 MyPhi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyKstar+ +1.0000 MyK_L0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.0000 MyK_L0 pi- VSS; +Enddecay +# + +End + + diff --git a/BaBar_2014/BpBm_phiKstarp_KSpip.dec b/BaBar_2014/BpBm_phiKstarp_KSpip.dec new file mode 100644 index 0000000..c8ae24e --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KSpip.dec @@ -0,0 +1,75 @@ +############################################################ +# # +# Decay: B- -> phi K*-, B+ -> X # +# |-> K+K- |-> Ks pi+ # +# |-> pi+ pi- # +# + cc # +# # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 2000/03/21 # +############################################################ +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# MyB+, MyB- and MyPhi (etc. )will decay not as a normal B+- or phi would, but +# as I tell them to +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +# +# The Upsilon decay part is simple in the B+/B- case; for B0/B0bar look +# at other files to see how people define mixing parameters +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'SVS' means 'Scalar -> Vector + Scalar', etc. +Decay MyB+ +1.0000 MyPhi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyKstar+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyKstar- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_phiKstarp_KSpip_angle1.dec b/BaBar_2014/BpBm_phiKstarp_KSpip_angle1.dec new file mode 100644 index 0000000..d12a3f7 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KSpip_angle1.dec @@ -0,0 +1,78 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.2500, +# phi_perp = -0.2000, phi_paral = 2.5000 +# all Acp = 0 +# +Define Hplus1 0.1579 +Define Hzero1 0.7746 +Define Hminus1 0.6124 +Define phHplus1 0.6350 +Define phHzero1 0.0 +Define phHminus1 2.7493 +# +Define Hplus2 0.1579 +Define Hzero2 0.7746 +Define Hminus2 0.6124 +Define phHplus2 0.6350 +Define phHzero2 0.0 +Define phHminus2 2.7493 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_phiKstarp_KSpip_angle2.dec b/BaBar_2014/BpBm_phiKstarp_KSpip_angle2.dec new file mode 100644 index 0000000..8654517 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KSpip_angle2.dec @@ -0,0 +1,78 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/01/2003 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.1600, +# phi_perp = 0.0000, phi_paral = \pi +# all Acp = 0 +# +Define Hplus1 0.0636 +Define Hzero1 0.7746 +Define Hminus1 0.6293 +Define phHplus1 3.1415926 +Define phHzero1 0.0 +Define phHminus1 3.1415926 +# +Define Hplus2 0.0636 +Define Hzero2 0.7746 +Define Hminus2 0.6293 +Define phHplus2 3.1415926 +Define phHzero2 0.0 +Define phHminus2 3.1415926 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_phiKstarp_KSpip_angle3.dec b/BaBar_2014/BpBm_phiKstarp_KSpip_angle3.dec new file mode 100644 index 0000000..d952b93 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KSpip_angle3.dec @@ -0,0 +1,80 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/01/2004 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6512, f_perp = 0.2361, +# phi_perp = -0.3606, phi_paral = 2.4595 +# Acp_0 = -0.1376, Acp_perp = 0.2508 +# At_parl= -0.0172, At_0 = -0.1603 +# Acp = 0 +# +Define Hplus1 0.1193 +Define Hzero1 0.8607 +Define Hminus1 0.4949 +Define phHplus1 0.6 +Define phHzero1 0.0 +Define phHminus1 3.1 +# +Define Hplus2 0.1606 +Define Hzero2 0.7494 +Define Hminus2 0.6424 +Define phHplus2 -0.2 +Define phHzero2 0.0 +Define phHminus2 2.2 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_phiKstarp_KSpip_ln.dec b/BaBar_2014/BpBm_phiKstarp_KSpip_ln.dec new file mode 100644 index 0000000..975c53d --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KSpip_ln.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_KSpip_odd.dec b/BaBar_2014/BpBm_phiKstarp_KSpip_odd.dec new file mode 100644 index 0000000..c76a365 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KSpip_odd.dec @@ -0,0 +1,59 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Trans. odd polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; *** +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_KSpip_tr.dec b/BaBar_2014/BpBm_phiKstarp_KSpip_tr.dec new file mode 100644 index 0000000..e531ddd --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_KSpip_tr.dec @@ -0,0 +1,58 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K0pi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_Kppi0.dec b/BaBar_2014/BpBm_phiKstarp_Kppi0.dec new file mode 100644 index 0000000..b0de0c0 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_Kppi0.dec @@ -0,0 +1,70 @@ +############################################################ +# # +# Decay: B- -> phi K*-, B+ -> X # +# |-> K+K- |-> K- pi0 # +# # +# + cc # +# # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 2000/03/20 # +############################################################ +# +# +#Define the helicity amplitudes starting +#from the transversity amplitudes (see for instance B+B-_JpsiKstar.dec +#by G. London): +# Aplus 0.566 +# Azero 1.02 +# Aminus 0.4 +# Hplus = (Aplus + Aminus) / sqrt(2) +# Hzero = Azero / sqrt(2) +# Hminus = (Aplus - Aminus) / sqrt(2) +# Note: Hzero following convention from Dunietz et al. To be consistent +# with CLEO measurements all phases should be == 0 +Define Hplus 0.683 +Define Hzero 0.721 +Define Hminus 0.117 +Define phHplus 0.0 +Define phHzero 0.0 +Define phHminus 0.0 +# +# MyB+, MyB- and MyPhi (etc. )will decay not as a normal B+- or phi would, but +# as I tell them to +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +Alias MyKstar+ K*+ +Alias MyKstar- K*- +# +# The Upsilon decay part is simple in the B+/B- case; for B0/B0bar look +# at other files to see how people define mixing parameters +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'SVS' means 'Scalar -> Vector + Scalar', etc. +Decay MyB+ +1.0000 MyPhi MyKstar+ SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyKstar- SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyKstar+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyKstar- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_phiKstarp_Kppi0_angle1.dec b/BaBar_2014/BpBm_phiKstarp_Kppi0_angle1.dec new file mode 100644 index 0000000..a140ec6 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_Kppi0_angle1.dec @@ -0,0 +1,72 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/16/2003 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.2500, +# phi_perp = -0.2000, phi_paral = 2.5000 +# all Acp = 0 +# +Define Hplus1 0.1579 +Define Hzero1 0.7746 +Define Hminus1 0.6124 +Define phHplus1 0.6350 +Define phHzero1 0.0 +Define phHminus1 2.7493 +# +Define Hplus2 0.1579 +Define Hzero2 0.7746 +Define Hminus2 0.6124 +Define phHplus2 0.6350 +Define phHzero2 0.0 +Define phHminus2 2.7493 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_Kppi0_angle2.dec b/BaBar_2014/BpBm_phiKstarp_Kppi0_angle2.dec new file mode 100644 index 0000000..b87fa70 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_Kppi0_angle2.dec @@ -0,0 +1,72 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/01/2004 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6000, f_perp = 0.1600, +# phi_perp = 0.0000, phi_paral = \pi +# all Acp = 0 +# +Define Hplus1 0.0636 +Define Hzero1 0.7746 +Define Hminus1 0.6293 +Define phHplus1 3.1415926 +Define phHzero1 0.0 +Define phHminus1 3.1415926 +# +Define Hplus2 0.0636 +Define Hzero2 0.7746 +Define Hminus2 0.6293 +Define phHplus2 3.1415926 +Define phHzero2 0.0 +Define phHminus2 3.1415926 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_Kppi0_angle3.dec b/BaBar_2014/BpBm_phiKstarp_Kppi0_angle3.dec new file mode 100644 index 0000000..43b1df2 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_Kppi0_angle3.dec @@ -0,0 +1,74 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/01/2004 # +# Patched: 03/24/2004 (change order A+ and A- for B) # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# Define helicity amplitudes which could be different +# for B (1) and Bbar (2) decays +# +# put f_L = 0.6512, f_perp = 0.2361, +# phi_perp = -0.3606, phi_paral = 2.4595 +# Acp_0 = -0.1376, Acp_perp = 0.2508 +# At_parl= -0.0172, At_0 = -0.1603 +# Acp = 0 +# +Define Hplus1 0.1193 +Define Hzero1 0.8607 +Define Hminus1 0.4949 +Define phHplus1 0.6 +Define phHzero1 0.0 +Define phHminus1 3.1 +# +Define Hplus2 0.1606 +Define Hzero2 0.7494 +Define Hminus2 0.6424 +Define phHplus2 -0.2 +Define phHzero2 0.0 +Define phHminus2 2.2 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP Hminus1 phHminus1 Hzero1 phHzero1 Hplus1 phHplus1; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP Hplus2 phHplus2 Hzero2 phHzero2 Hminus2 phHminus2; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_Kppi0_ln.dec b/BaBar_2014/BpBm_phiKstarp_Kppi0_ln.dec new file mode 100644 index 0000000..edd2afc --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_Kppi0_ln.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_Kppi0_odd.dec b/BaBar_2014/BpBm_phiKstarp_Kppi0_odd.dec new file mode 100644 index 0000000..d7cdc72 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_Kppi0_odd.dec @@ -0,0 +1,54 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 12/18/2001 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Trans. odd polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; *** +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiKstarp_Kppi0_tr.dec b/BaBar_2014/BpBm_phiKstarp_Kppi0_tr.dec new file mode 100644 index 0000000..5dfb384 --- /dev/null +++ b/BaBar_2014/BpBm_phiKstarp_Kppi0_tr.dec @@ -0,0 +1,53 @@ +############################################################ +# # +# Decay: B+ -> phi K*+ -> (K+K-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phikkk.dec b/BaBar_2014/BpBm_phikkk.dec new file mode 100644 index 0000000..0786fd2 --- /dev/null +++ b/BaBar_2014/BpBm_phikkk.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: B+ -> phiK+K-K+ # +# B- -> generic # +# # +# Author: Prafulla Kumar Behera # +# e-mail: behera@slac.stanford.edu # +# Created: 04/29/2004 # +# # +# # +############################################################ +# +Alias MyPhi phi +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi K+ K- K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyPhi K- K+ K- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_phim3pimnoint_Kp.dec b/BaBar_2014/BpBm_phim3pimnoint_Kp.dec new file mode 100644 index 0000000..5e99f44 --- /dev/null +++ b/BaBar_2014/BpBm_phim3pimnoint_Kp.dec @@ -0,0 +1,43 @@ +############################################################ +# # +# Decay: B+ -> phi K+, B- -> X # +# | # +# -> pi+pi-pi0 # +# # +# + cc # +# # +# Three pi decay of phi as implemented at the moment # +# in DECAY.DEC, i.e., NO INTERFERENCE between rho pi # +# final states (this is in preparation...) # +# # +# Author: Thomas Schietinger # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/10 # +############################################################ + +Alias MyPhi phi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyPhi K- SVS; +Enddecay +# +Decay MyPhi +0.2800 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2800 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.2800 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1600 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phim3pimphsp_Kp.dec b/BaBar_2014/BpBm_phim3pimphsp_Kp.dec new file mode 100644 index 0000000..8d12086 --- /dev/null +++ b/BaBar_2014/BpBm_phim3pimphsp_Kp.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B+ -> phi K+, B- -> X # +# | # +# -> pi+pi-pi0 # +# # +# + cc # +# # +# Three pi decay of phi as implemented at the moment # +# in DECAY.DEC, i.e., NO INTERFERENCE between rho pi # +# final states (this is in preparation...) # +# # +# Author: Thomas Schietinger # +# e-mail: schieti@slac.stanford.edu # +# Created: 2001/07/10 # +############################################################ + +Alias MyPhi phi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyPhi K- SVS; +Enddecay +# +Decay MyPhi +1.0000 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phinKp.dec b/BaBar_2014/BpBm_phinKp.dec new file mode 100644 index 0000000..fa4bdd7 --- /dev/null +++ b/BaBar_2014/BpBm_phinKp.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# Decay: B- -> phi K-, B+ -> X # +# |-> KL KS # +# # +# + cc # +# # +# Author: Alexandre (Sasha) Telnov/S.Spanier # +# e-mail: avtelnov@slac.stanford.edu # +# Created: 1999/10/27 # +# overwritten 2001/08/01 # +############################################################ + +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi K+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyPhi K- SVS; +Enddecay +# +Decay MyPhi +1.0000 K_L0 MyK_S0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phiphiKp.dec b/BaBar_2014/BpBm_phiphiKp.dec new file mode 100644 index 0000000..3a3cb37 --- /dev/null +++ b/BaBar_2014/BpBm_phiphiKp.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B0 -> phi phi -> (K+K-)(K+K-) # +# B0bar -> generic # +# # +# Author: Prafulla Kumar Behera # +# e-mail: behera@slac.stanford.edu # +# Created: 07/16/2003 # +# # +# # +############################################################ +# +Alias MyPhi phi +Alias MyK_S0 K_S0 +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi MyPhi K+ PHSP; +Enddecay +# +Decay MyB- +1.0000 MyPhi MyPhi K- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_phipip.dec b/BaBar_2014/BpBm_phipip.dec new file mode 100644 index 0000000..e37513d --- /dev/null +++ b/BaBar_2014/BpBm_phipip.dec @@ -0,0 +1,35 @@ +############################################################ +# # +# Decay: B- -> phi K-, B+ -> X # +# |-> K+K- # +# # +# + cc # +# # +# Author: Paul C. Bloom # +# e-mail: bloom@slac.stanford.edu # +# Created: 2000/08/02 # +############################################################ + +Alias MyPhi phi +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 MyPhi pi+ SVS; +Enddecay +# +Decay MyB- +1.0000 MyPhi pi- SVS; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_phirhop.dec b/BaBar_2014/BpBm_phirhop.dec new file mode 100644 index 0000000..0db60de --- /dev/null +++ b/BaBar_2014/BpBm_phirhop.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: B+ -> phi rho+ -> (K+K-)(pi+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_phirhop_ln.dec b/BaBar_2014/BpBm_phirhop_ln.dec new file mode 100644 index 0000000..a828626 --- /dev/null +++ b/BaBar_2014/BpBm_phirhop_ln.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: B+ -> phi rho+ -> (K+K-)(pi+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 MyPhi rho+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi rho- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_phirhop_tr.dec b/BaBar_2014/BpBm_phirhop_tr.dec new file mode 100644 index 0000000..510df21 --- /dev/null +++ b/BaBar_2014/BpBm_phirhop_tr.dec @@ -0,0 +1,45 @@ +############################################################ +# # +# Decay: B+ -> phi rho+ -> (K+K-)(pi+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 10/18/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyPhi phi +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Transverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 MyPhi rho+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 MyPhi rho- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_pi0lnu_FLATQ2.dec b/BaBar_2014/BpBm_pi0lnu_FLATQ2.dec new file mode 100644 index 0000000..afec055 --- /dev/null +++ b/BaBar_2014/BpBm_pi0lnu_FLATQ2.dec @@ -0,0 +1,45 @@ +############################################################################### +# This is a DECAY.DEC file for FLATQ2 Decays of B+(-) -> pi0 l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> pi0 l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# CONTACT: cote@slac.stanford.edu # +# # +############################################################################### +# Create our own versions of B-, B+ which will decay to pi0 l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to pi0 l nu +# +Decay myB- +0.5000 pi0 e- anti-nu_e FLATQ2; +0.5000 pi0 mu- anti-nu_mu FLATQ2; +Enddecay +# +Decay myB+ +0.5000 pi0 e+ nu_e FLATQ2; +0.5000 pi0 mu+ nu_mu FLATQ2; +Enddecay +# +End + + + + + + + + diff --git a/BaBar_2014/BpBm_pi0lnu_phsp.dec b/BaBar_2014/BpBm_pi0lnu_phsp.dec new file mode 100644 index 0000000..1bd408d --- /dev/null +++ b/BaBar_2014/BpBm_pi0lnu_phsp.dec @@ -0,0 +1,37 @@ +############################################################################### +# This is a DECAY.DEC file for phase space Decays of B+(-) -> pi0 l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> pi0 l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# CONTACT: cote@slac.stanford.edu # +# # +############################################################################### +# Create our own versions of B-, B+ which will decay to pi0 l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to pi0 l nu +# +Decay myB- +0.5000 pi0 e- anti-nu_e PHOTOS PHSP; +0.5000 pi0 mu- anti-nu_mu PHOTOS PHSP; +Enddecay +# +Decay myB+ +0.5000 pi0 e+ nu_e PHOTOS PHSP; +0.5000 pi0 mu+ nu_mu PHOTOS PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pi0rho.dec b/BaBar_2014/BpBm_pi0rho.dec new file mode 100644 index 0000000..a6b3e7e --- /dev/null +++ b/BaBar_2014/BpBm_pi0rho.dec @@ -0,0 +1,45 @@ +################################################### +# # +# B+ -> rho+ pi0 + c.c. # +# | # +# | # +# ---> pi+ pi0 # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B+ -> rho+ pi0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho+ rho+ +Alias Myrho- rho- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho+ pi0 SVS; +Enddecay +# +Decay MyB- +1.000 Myrho- pi0 SVS; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 VSS; +Enddecay +# +Decay Myrho- +1.000 pi- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pi2K0s.dec b/BaBar_2014/BpBm_pi2K0s.dec new file mode 100644 index 0000000..3f4c2ec --- /dev/null +++ b/BaBar_2014/BpBm_pi2K0s.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> pi+ K0s K0s (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B + -> pi+ K0s K0s (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ K_S0 K_S0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- K_S0 K_S0 PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_pi2pi0.dec b/BaBar_2014/BpBm_pi2pi0.dec new file mode 100644 index 0000000..db6b8e3 --- /dev/null +++ b/BaBar_2014/BpBm_pi2pi0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# B+ -> pi+ pi0 pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 15 Sept 2000 # +# # +################################################### +# +# Decay table for B + -> pi+ pi0 pi0 (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- pi0 pi0 PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_piK0pi0.dec b/BaBar_2014/BpBm_piK0pi0.dec new file mode 100644 index 0000000..756faeb --- /dev/null +++ b/BaBar_2014/BpBm_piK0pi0.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B+ -> pi+ K0S pi0 (non-resonant) + c.c. # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 26/April/00 # +# # +################################################### +# +# Decay table for B + -> pi+ K0S pi0 (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ K_S0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- K_S0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pi_D0mK3pi.dec b/BaBar_2014/BpBm_pi_D0mK3pi.dec new file mode 100644 index 0000000..7f5d2d6 --- /dev/null +++ b/BaBar_2014/BpBm_pi_D0mK3pi.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B- -> D0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> K- pi+ pi- pi+ # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyD0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.00 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/BpBm_pi_D0mKpimWS.dec b/BaBar_2014/BpBm_pi_D0mKpimWS.dec new file mode 100644 index 0000000..dfba711 --- /dev/null +++ b/BaBar_2014/BpBm_pi_D0mKpimWS.dec @@ -0,0 +1,48 @@ +##################################################### +# # +# Decay: B- -> D0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> K+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 29 April 2002 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 + + +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyD0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.00 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay MyD0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K- pi+ PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_pi_D0mKpipi0.dec b/BaBar_2014/BpBm_pi_D0mKpipi0.dec new file mode 100644 index 0000000..adbf4f5 --- /dev/null +++ b/BaBar_2014/BpBm_pi_D0mKpipi0.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B- -> D0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> K- pi+ pi0 # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyD0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.00 Myanti-D0 pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi0 D_DALITZ; +Enddecay + +# +End + diff --git a/BaBar_2014/BpBm_pi_D0mKspipi.dec b/BaBar_2014/BpBm_pi_D0mKspipi.dec new file mode 100644 index 0000000..b5cb511 --- /dev/null +++ b/BaBar_2014/BpBm_pi_D0mKspipi.dec @@ -0,0 +1,65 @@ +##################################################### +# # +# Decay: B- -> D0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 MyD0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.00 Myanti-D0 pi+ PHSP; +Enddecay +# +# +Decay Myanti-D0 +1.00 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# + +# +End + + + diff --git a/BaBar_2014/BpBm_pi_Dstar0mgammaD0mK3piRes.dec b/BaBar_2014/BpBm_pi_Dstar0mgammaD0mK3piRes.dec new file mode 100644 index 0000000..80f9bee --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mgammaD0mK3piRes.dec @@ -0,0 +1,106 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 gamma # +# |-> K- pi+ pi0 # +# # +# + cc # +# # +# Author: P Robbe # +# created: 30 Mar 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +0.4585 Mya_1- K+ SVS; +0.0443 MyK_1+ pi- SVS; +0.1354 MyK*0 pi- pi+ PHSP; +0.0700 K+ pi- rho0 PHSP; +0.1669 K+ pi- pi- pi+ PHSP; +0.1249 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.4585 Mya_1+ K- SVS; +0.0443 MyK_1- pi+ SVS; +0.1354 Myanti-K*0 pi+ pi- PHSP; +0.0700 K- pi+ rho0 PHSP; +0.1669 K- pi+ pi+ pi- PHSP; +0.1249 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pi_Dstar0mgammaD0mKpi.dec b/BaBar_2014/BpBm_pi_Dstar0mgammaD0mKpi.dec new file mode 100644 index 0000000..ec40681 --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mgammaD0mKpi.dec @@ -0,0 +1,55 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 gamma # +# |-> K- pi+ # +# # +# + cc # +# # +# Author: P Robbe # +# created: 30 Mar 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pi_Dstar0mpi0D0_taunu.dec b/BaBar_2014/BpBm_pi_Dstar0mpi0D0_taunu.dec new file mode 100644 index 0000000..0947d3a --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mpi0D0_taunu.dec @@ -0,0 +1,56 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> tau+ nu_tau # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# # +# # +# + cc # +# # +# Author: G. Abrams # +# created: 22 May 2001 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +# +# force the other B to always decay to tau nu_tau +# +Decay B- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +Decay B+ +1.0000 tau+ nu_tau SLN; +Enddecay +# +Decay MyD*0 +1.0000 D0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0000 anti-D0 pi0 VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3pi.dec b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3pi.dec new file mode 100644 index 0000000..4c538fb --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3pi.dec @@ -0,0 +1,55 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# |-> K- pi+ pi- pi+ # +# # +# + cc # +# # +# Author: P Robbe # +# created: 30 Mar 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3piRes.dec b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3piRes.dec new file mode 100644 index 0000000..6078b15 --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mK3piRes.dec @@ -0,0 +1,106 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# |-> K- pi+ pi- pi+ # +# # +# + cc # +# # +# Author: P Robbe # +# created: 19 May 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias Mya_1+ a_1+ +Alias Mya_1- a_1- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias Myomega omega +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +0.4585 Mya_1- K+ SVS; +0.0443 MyK_1+ pi- SVS; +0.1354 MyK*0 pi- pi+ PHSP; +0.0700 K+ pi- rho0 PHSP; +0.1669 K+ pi- pi- pi+ PHSP; +0.1249 MyK*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD0 +0.4585 Mya_1+ K- SVS; +0.0443 MyK_1- pi+ SVS; +0.1354 Myanti-K*0 pi+ pi- PHSP; +0.0700 K- pi+ rho0 PHSP; +0.1669 K- pi+ pi+ pi- PHSP; +0.1249 Myanti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay Mya_1+ +1.0000 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK_1+ +0.3913 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K+ pi- pi+ PHSP; +Enddecay +# +Decay MyK_1- +0.3913 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1984 Myanti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0067 Myomega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.4036 K- pi+ pi- PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +# +Decay Myomega +1.0000 pi- pi+ VSS; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpi.dec b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpi.dec new file mode 100644 index 0000000..649c306 --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpi.dec @@ -0,0 +1,55 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# |-> K- pi+ # +# # +# + cc # +# # +# Author: P Robbe # +# created: 30 Mar 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpipi0.dec b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpipi0.dec new file mode 100644 index 0000000..4e352c5 --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKpipi0.dec @@ -0,0 +1,55 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# |-> K- pi+ pi0 # +# # +# + cc # +# # +# Author: P Robbe # +# created: 30 Mar 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi0 D_DALITZ; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKspipi.dec b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKspipi.dec new file mode 100644 index 0000000..a6faf4a --- /dev/null +++ b/BaBar_2014/BpBm_pi_Dstar0mpi0D0mKspipi.dec @@ -0,0 +1,70 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 pi- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# + cc # +# # +# Author: P Robbe # +# created: 30 Mar 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 pi+ SVS; +Enddecay +# +Decay MyB- +1.00 MyD*0 pi- SVS; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +1.00 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_pichi_c0_pipi.dec b/BaBar_2014/BpBm_pichi_c0_pipi.dec new file mode 100644 index 0000000..0a945cc --- /dev/null +++ b/BaBar_2014/BpBm_pichi_c0_pipi.dec @@ -0,0 +1,35 @@ +################################################### +# # +# B+ -> pi+ chi_c0 + C.C. # +# | # +# --> pi+ pi- # +# # +# Author: Huw Shorthouse huw@slac.stanford.edu # +# Created: 11/Feb/02 # +# # +################################################### +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mychi_c0 chi_c0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ Mychi_c0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- Mychi_c0 PHSP; +Enddecay +# +Decay Mychi_c0 +1.000 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/BpBm_piee_Ball.dec b/BaBar_2014/BpBm_piee_Ball.dec new file mode 100644 index 0000000..278403c --- /dev/null +++ b/BaBar_2014/BpBm_piee_Ball.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> pi- e+ e- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 pi+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 pi- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_pilnu.dec b/BaBar_2014/BpBm_pilnu.dec new file mode 100644 index 0000000..14946c1 --- /dev/null +++ b/BaBar_2014/BpBm_pilnu.dec @@ -0,0 +1,35 @@ +############################################################################### +# This is a DECAY.DEC file for B+(-) -> pi l nu : # +# # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> pi0 l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# Mail: NATALIA@SLAC.STANFORD.EDU +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +Decay Upsilon(4S) +0.50000 B+ myB- VSS; +0.50000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to pi l nu +# +Decay myB- +0.5000 pi0 e- anti-nu_e PHOTOS ISGW2; +0.5000 pi0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +Decay myB+ +0.5000 pi0 e+ nu_e PHOTOS ISGW2; +0.5000 pi0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pimumu_Ball.dec b/BaBar_2014/BpBm_pimumu_Ball.dec new file mode 100644 index 0000000..bc38591 --- /dev/null +++ b/BaBar_2014/BpBm_pimumu_Ball.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> pi- mu+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 pi+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 pi- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_pipKsKs.dec b/BaBar_2014/BpBm_pipKsKs.dec new file mode 100644 index 0000000..2ef1f6d --- /dev/null +++ b/BaBar_2014/BpBm_pipKsKs.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B+ -> pi+ K0s K0s + c.c. # +# # +# Author: Joshua Thompson # +# Created: 26 September 2003 # +# # +################################################### +# +# Decay table for B + -> pi+ K0s K0s (non-resonant) +# using phase space +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- MyK_S0 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pipemmup_PHSP.dec b/BaBar_2014/BpBm_pipemmup_PHSP.dec new file mode 100644 index 0000000..03a4248 --- /dev/null +++ b/BaBar_2014/BpBm_pipemmup_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> pi- e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 pi+ mu+ e- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 pi- e+ mu- PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_pipepmum_PHSP.dec b/BaBar_2014/BpBm_pipepmum_PHSP.dec new file mode 100644 index 0000000..d6214bc --- /dev/null +++ b/BaBar_2014/BpBm_pipepmum_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> pi- e- mu+ # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 pi+ mu- e+ PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 pi- e- mu+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_pipi.dec b/BaBar_2014/BpBm_pipi.dec new file mode 100644 index 0000000..904e0e2 --- /dev/null +++ b/BaBar_2014/BpBm_pipi.dec @@ -0,0 +1,30 @@ +################################################### +# # +# B- -> pi- pi0 +cc # +# # +# Author: Jim Olsen # +# created: 3/Feb/99 # +# modified: g.london 10/Feb/99 # +# modified: g.london SSS/PHSP 21/Feb/99 # +################################################### +# +# Decay table for B- -> pi- pi0 using a simple PHSP +# model. +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +1.00 pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pippi0Kstar_Kppim.dec b/BaBar_2014/BpBm_pippi0Kstar_Kppim.dec new file mode 100644 index 0000000..edcfa6e --- /dev/null +++ b/BaBar_2014/BpBm_pippi0Kstar_Kppim.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B+ -> pi+ pi0 K*0 (K+pi-) (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi0 MyK*0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- pi0 MyK*0bar PHSP; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pippi0eta.dec b/BaBar_2014/BpBm_pippi0eta.dec new file mode 100644 index 0000000..974e166 --- /dev/null +++ b/BaBar_2014/BpBm_pippi0eta.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B+ -> pi+ pi0 eta + c.c. # +# | # +# | # +# ---> gamma gamma # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B+ -> pi+ pi0 eta +# using a phase space model +# (and forcing eta to decay to gamma gamma) +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myeta eta +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi0 Myeta PHSP; +Enddecay +# +Decay MyB- +1.000 pi- pi0 Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pippi0pi0eta.dec b/BaBar_2014/BpBm_pippi0pi0eta.dec new file mode 100644 index 0000000..43959b9 --- /dev/null +++ b/BaBar_2014/BpBm_pippi0pi0eta.dec @@ -0,0 +1,41 @@ +################################################### +# # +# B+ -> pi+ pi0 pi0 eta + c.c. # +# | # +# | # +# ---> gamma gamma # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B+ -> pi+ pi0 pi0 eta +# using a phase space model +# (and forcing eta to decay to gamma gamma) +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myeta eta +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi0 pi0 Myeta PHSP; +Enddecay +# +Decay MyB- +1.000 pi- pi0 pi0 Myeta PHSP; +Enddecay +# +Decay Myeta +1.000 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pippi0pi0pi0.dec b/BaBar_2014/BpBm_pippi0pi0pi0.dec new file mode 100644 index 0000000..7bc65d1 --- /dev/null +++ b/BaBar_2014/BpBm_pippi0pi0pi0.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> pi+ pi0 pi0 pi0 + c.c. # +# # +# # +# # +# Author: Richard Sloane # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B+ -> pi+ pi0 pi0 pi0 +# using a phase space model +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi0 pi0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 pi- pi0 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pippimKstar_KSpip.dec b/BaBar_2014/BpBm_pippimKstar_KSpip.dec new file mode 100644 index 0000000..e7b8597 --- /dev/null +++ b/BaBar_2014/BpBm_pippimKstar_KSpip.dec @@ -0,0 +1,47 @@ +############################################################ +# # +# Decay: B+ -> pi+ pi- K*+(KSpi+) (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi- MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.000 pi+ pi- MyK*- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pippimKstar_Kppi0.dec b/BaBar_2014/BpBm_pippimKstar_Kppi0.dec new file mode 100644 index 0000000..48b3ef7 --- /dev/null +++ b/BaBar_2014/BpBm_pippimKstar_Kppi0.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: B+ -> pi+ pi- K*+(K+pi0) (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 pi+ pi- MyK*+ PHSP; +Enddecay +# +Decay MyB- +1.000 pi+ pi- MyK*- PHSP; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_pippippim_intf1.dec b/BaBar_2014/BpBm_pippippim_intf1.dec new file mode 100644 index 0000000..5f6c1ba --- /dev/null +++ b/BaBar_2014/BpBm_pippippim_intf1.dec @@ -0,0 +1,144 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> pi+ pi+ pi- +# +# charge conjugation assumed +# +# The decay into the pi+ pi+ pi- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 7.324009 +#Total: 391.185103 +# Channel I |c| |c|^2*I Fract +# NR 376.43 0.50 94.11 0.33 +# rho0 31.52 1.00 31.52 0.11 +# rho0 32.24 1.00 32.24 0.11 +# rho(2S)0 28.85 0.50 7.21 0.03 +# rho(2S)0 29.34 0.50 7.33 0.03 +# rho(3S)0 43.64 0.30 3.93 0.01 +# rho(3S)0 44.61 0.30 4.01 0.01 +# f_0 51.06 1.00 51.06 0.18 +# f_0 51.17 1.00 51.17 0.18 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0 pi+ pi+ pi- PTO3P + + MAXPDF 8.8 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + AMPLITUDE RESONANCE CA rho0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.0 + AMPLITUDE RESONANCE CA rho(2S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.0 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 0.0 + AMPLITUDE RESONANCE CA rho(3S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 0.0 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.0 + AMPLITUDE RESONANCE CA f_0 + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.0 + + ; + +Enddecay + +Decay MyB- +1.0 pi- pi- pi+ PTO3P + + MAXPDF 8.8 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + AMPLITUDE RESONANCE CA rho0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 0.0 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.0 + AMPLITUDE RESONANCE CA rho(2S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.0 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 0.0 + AMPLITUDE RESONANCE CA rho(3S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 0.0 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.0 + AMPLITUDE RESONANCE CA f_0 + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.0 + + ; + +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_pippippim_intf2.dec b/BaBar_2014/BpBm_pippippim_intf2.dec new file mode 100644 index 0000000..4e369d0 --- /dev/null +++ b/BaBar_2014/BpBm_pippippim_intf2.dec @@ -0,0 +1,143 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> pi+ pi+ pi- +# +# charge conjugation assumed +# +# The decay into the pi+ pi+ pi- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 5.385945 +#Total: 297.622876 +# Channel I |c| |c|^2*I Fract +# NR 376.43 0.50 94.11 0.33 +# rho0 31.52 1.00 31.52 0.11 +# rho0 32.24 1.00 32.24 0.11 +# rho(2S)0 28.85 0.50 7.21 0.03 +# rho(2S)0 29.34 0.50 7.33 0.03 +# rho(3S)0 43.64 0.30 3.93 0.01 +# rho(3S)0 44.61 0.30 4.01 0.01 +# f_0 51.06 1.00 51.06 0.18 +# f_0 51.17 1.00 51.17 0.18 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0 pi+ pi+ pi- PTO3P + + MAXPDF 6.5 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 3.14 + AMPLITUDE RESONANCE CA rho0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 3.14 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 2.5 + AMPLITUDE RESONANCE CA rho(2S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 2.5 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -1.2 + AMPLITUDE RESONANCE CA rho(3S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -1.2 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.8 + AMPLITUDE RESONANCE CA f_0 + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.8 + + ; + +Enddecay + + +Decay MyB- +1.0 pi- pi- pi+ PTO3P + + MAXPDF 6.5 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 3.14 + AMPLITUDE RESONANCE CA rho0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 3.14 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 2.5 + AMPLITUDE RESONANCE CA rho(2S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 2.5 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -1.2 + AMPLITUDE RESONANCE CA rho(3S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -1.2 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.8 + AMPLITUDE RESONANCE CA f_0 + ANGULAR BC + TYPE NBW + COEFFICIENT POLAR_RAD 1.0 0.8 + + ; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_pippippim_intf3.dec b/BaBar_2014/BpBm_pippippim_intf3.dec new file mode 100644 index 0000000..c92ef3d --- /dev/null +++ b/BaBar_2014/BpBm_pippippim_intf3.dec @@ -0,0 +1,142 @@ +# Author: Alexei Dvoretskii +# Created: 12 June 2003 +# +# Upsilon(4S) -> B+ B- +# | |-> generic +# | +# |-> pi+ pi+ pi- +# +# charge conjugation assumed +# +# The decay into the pi+ pi+ pi- final state proceeds +# via multiple interfering subchannels. They are summarized in the +# table below. The contribution of each channel is roughly proportional +# to magnitude squared of the complex coefficient for that channel times +# the integral of the amplitude squared term. +# +#SCAN 10000 30.911520 +#Total: 299.431368 +# Channel I |c| |c|^2*I Fract +# NR 376.43 0.50 94.11 0.37 +# rho0 33.46 1.00 33.46 0.13 +# rho0 31.08 1.00 31.08 0.12 +# rho(2S)0 28.10 0.50 7.02 0.03 +# rho(2S)0 29.35 0.50 7.34 0.03 +# rho(3S)0 43.52 0.30 3.92 0.02 +# rho(3S)0 44.82 0.30 4.03 0.02 +# f_0 1585.41 0.15 35.67 0.14 +# f_0 1586.94 0.15 35.71 0.14 + +Alias MyB+ B+ +Alias MyB- B- + +Decay Upsilon(4S) +0.5 MyB+ B- VSS; +0.5 MyB- B+ VSS; +Enddecay + +Decay MyB+ +1.0 pi+ pi+ pi- PTO3P + + MAXPDF 37.1 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 -0.2 + AMPLITUDE RESONANCE CA rho0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 -0.2 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.4 + AMPLITUDE RESONANCE CA rho(2S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.4 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -0.6 + AMPLITUDE RESONANCE CA rho(3S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -0.6 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.15 0.8 + AMPLITUDE RESONANCE CA f_0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.15 0.8 + + ; + +Enddecay + +Decay MyB- +1.0 pi- pi- pi+ PTO3P + + MAXPDF 37.1 + #SCANPDF 10000 + + # Non-resonant + AMPLITUDE PHASESPACE + COEFFICIENT POLAR_RAD 0.5 0.0 + + # PIPI RESONANCES + + AMPLITUDE RESONANCE BC rho0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 -0.2 + AMPLITUDE RESONANCE CA rho0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 1.0 -0.2 + + AMPLITUDE RESONANCE BC rho(2S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.4 + AMPLITUDE RESONANCE CA rho(2S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.5 0.4 + + AMPLITUDE RESONANCE BC rho(3S)0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -0.6 + AMPLITUDE RESONANCE CA rho(3S)0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.3 -0.6 + + AMPLITUDE RESONANCE BC f_0 + ANGULAR CA + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.15 0.8 + AMPLITUDE RESONANCE CA f_0 + ANGULAR BC + TYPE RBW_ZEMACH + COEFFICIENT POLAR_RAD 0.15 0.8 + + ; + +Enddecay + +End diff --git a/BaBar_2014/BpBm_pirho0.dec b/BaBar_2014/BpBm_pirho0.dec new file mode 100644 index 0000000..9c19fff --- /dev/null +++ b/BaBar_2014/BpBm_pirho0.dec @@ -0,0 +1,37 @@ +################################################### +# # +# B+ -> pi+ rho0 + c.c. # +# | # +# | # +# ---> pi- pi+ # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 27/Oct/99 # +# # +################################################### +# +# Decay table for B+ -> pi+ rho0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0 decays to pi- pi+ (using a simple VSS model). +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho0 rho0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho0 pi+ SVS; +Enddecay +# +Decay MyB- +1.000 Myrho0 pi- SVS; +Enddecay +# +Decay Myrho0 +1.000 pi- pi+ VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_pmLambda_cppim_Lambda3pi.dec b/BaBar_2014/BpBm_pmLambda_cppim_Lambda3pi.dec new file mode 100644 index 0000000..e95841e --- /dev/null +++ b/BaBar_2014/BpBm_pmLambda_cppim_Lambda3pi.dec @@ -0,0 +1,53 @@ +############################################################## +# # +# Decay: B+ -> Lambda_c- proton pi+, B- ->X # +# | # +# |-> Lambdabar pi+ pi- pi- (100%) # +# | # +# |-> anti-proton pi+ (100%) # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +############################################################## +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias My-anti-Lambda0 anti-Lambda0 +Alias My-Lambda0 Lambda0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-Lc p+ pi+ PHSP; +Enddecay +# // phase space here +Decay MyB- + 1.00000 MyLc anti-p- pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 My-Lambda0 pi+ pi+ pi- PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 My-anti-Lambda0 pi+ pi- pi- PHSP; +Enddecay +# +Decay My-Lambda0 + 1.00000 p+ pi- PHSP; +Enddecay +# +Decay My-anti-Lambda0 + 1.00000 anti-p- pi+ PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/BpBm_pmLambda_cppim_Lambdapip.dec b/BaBar_2014/BpBm_pmLambda_cppim_Lambdapip.dec new file mode 100644 index 0000000..f19e169 --- /dev/null +++ b/BaBar_2014/BpBm_pmLambda_cppim_Lambdapip.dec @@ -0,0 +1,53 @@ +############################################################## +# # +# Decay: B+ -> Lambda_c- proton pi+, B- ->X # +# | # +# |-> Lambdabar pi- (100%) # +# | # +# |-> anti-proton pi+ (100%) # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +############################################################## +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias My-anti-Lambda0 anti-Lambda0 +Alias My-Lambda0 Lambda0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-Lc p+ pi+ PHSP; +Enddecay +# // phase space here +Decay MyB- + 1.00000 MyLc anti-p- pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 My-Lambda0 pi+ PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 My-anti-Lambda0 pi- PHSP; +Enddecay +# +Decay My-Lambda0 + 1.0000 p+ pi- PHSP; +Enddecay +# +Decay My-anti-Lambda0 + 1.0000 anti-p- pi+ PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/BpBm_pmLambda_cppim_protonkpi.dec b/BaBar_2014/BpBm_pmLambda_cppim_protonkpi.dec new file mode 100644 index 0000000..ee78653 --- /dev/null +++ b/BaBar_2014/BpBm_pmLambda_cppim_protonkpi.dec @@ -0,0 +1,41 @@ +#################################################### +# # +# Decay: B+ -> Lambda_c- proton pi+, B- ->X # +# | # +# |-> anti-p K+ pi- # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +#################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-Lc p+ pi+ PHSP; +Enddecay +# +Decay MyB- + 1.00000 MyLc anti-p- pi- PHSP; +Enddecay +# // resonance structure in Dalitz not modeled +Decay MyLc + 1.00000 p+ K- pi+ PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 anti-p- K+ pi- PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/BpBm_pmLambda_cppim_protonks.dec b/BaBar_2014/BpBm_pmLambda_cppim_protonks.dec new file mode 100644 index 0000000..942f565 --- /dev/null +++ b/BaBar_2014/BpBm_pmLambda_cppim_protonks.dec @@ -0,0 +1,58 @@ +#################################################### +# # +# Decay: B+ -> Lambda_c- proton pi+, B- ->X # +# | # +# |-> anti-p K_0S (100%) # +# | # +# |-> pi+pi-(100%)# +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +#################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-Lc p+ pi+ PHSP; +Enddecay +# // phase space here +Decay MyB- + 1.00000 MyLc anti-p- pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 p+ Myanti-K0 PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 anti-p- MyK0 PHSP; +Enddecay +# +Decay MyK0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.0000 pi+ pi- PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/BpBm_pmLambda_cppim_protonks2pi.dec b/BaBar_2014/BpBm_pmLambda_cppim_protonks2pi.dec new file mode 100644 index 0000000..0a448b6 --- /dev/null +++ b/BaBar_2014/BpBm_pmLambda_cppim_protonks2pi.dec @@ -0,0 +1,58 @@ +############################################################## +# # +# Decay: B+ -> Lambda_c- proton pi+pi-, B- ->X # +# | # +# |-> anti-proton K_0S pi+ pi- (100%) # +# | # +# |-> pi+ pi- (100%) # +# Comments: # +# Author: Haibo Li, Wisconsin # +# Date: April 11 2004 # +# Use phase space for now # +############################################################## +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyLc Lambda_c+ +Alias Myanti-Lc anti-Lambda_c- +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# // Phase Space model +Decay MyB+ + 1.00000 Myanti-Lc p+ pi+ PHSP; +Enddecay +# // phase space here +Decay MyB- + 1.00000 MyLc anti-p- pi- PHSP; +Enddecay +# +Decay MyLc + 1.00000 p+ Myanti-K0 pi+ pi- PHSP; +Enddecay +# +Decay Myanti-Lc + 1.00000 anti-p- MyK0 pi+ pi- PHSP; +Enddecay +# +Decay MyK0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 + 1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.0000 pi+ pi- PHSP; +Enddecay +# +End + + \ No newline at end of file diff --git a/BaBar_2014/BpBm_ppbarK1270.dec b/BaBar_2014/BpBm_ppbarK1270.dec new file mode 100644 index 0000000..6ced9bd --- /dev/null +++ b/BaBar_2014/BpBm_ppbarK1270.dec @@ -0,0 +1,26 @@ +####################################################### +# # +# Decay: B-->ppbarK1270 B+->X # +# +cc # +# # +# Author: Tetiana Hrynova # +# Created: 30 June 2003 # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.000 p+ anti-p- K_1- PHSP; +Enddecay +# +Decay MyB+ +1.000 p+ anti-p- K_1+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_ppbarKstar.dec b/BaBar_2014/BpBm_ppbarKstar.dec new file mode 100644 index 0000000..05ad8c8 --- /dev/null +++ b/BaBar_2014/BpBm_ppbarKstar.dec @@ -0,0 +1,50 @@ +####################################################### +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> X # +# | # +# -> p pbar Kstar+ +CC # +# | # +# -> K_S0 pi+ # +# -> K+ pi0 # +# Author: Tetiana Hrynova, SLAC # +# (thrynova@slac.stanford.edu) # +# Created: 12 Dec 03 # +# # +####################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyKstar+ K*+ +Alias MyKstar- K*- +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 p+ anti-p- MyKstar+ PHSP; +Enddecay +# +Decay MyB- +1.000 p+ anti-p- MyKstar- PHSP; +Enddecay +# +Decay MyKstar+ +0.5 MyK_S0 pi+ VSS; +0.5 K+ pi0 VSS; +Enddecay +# +Decay MyKstar- +0.5 MyK_S0 pi- VSS; +0.5 K- pi0 VSS; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_ppbarpi.dec b/BaBar_2014/BpBm_ppbarpi.dec new file mode 100644 index 0000000..20e5c3e --- /dev/null +++ b/BaBar_2014/BpBm_ppbarpi.dec @@ -0,0 +1,26 @@ +####################################################### +# # +# Decay: B-->ppbarpi- B+->X # +# +cc # +# # +# Author: Tetiana Hrynova # +# Created: 30 June 2003 # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.000 p+ anti-p- pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 p+ anti-p- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_ppbarrho.dec b/BaBar_2014/BpBm_ppbarrho.dec new file mode 100644 index 0000000..475df88 --- /dev/null +++ b/BaBar_2014/BpBm_ppbarrho.dec @@ -0,0 +1,26 @@ +####################################################### +# # +# Decay: B-->ppbar rho- B+->X # +# +cc # +# # +# Author: Tetiana Hrynova # +# Created: 12 Dec 2003 # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.000 p+ anti-p- rho- PHSP; +Enddecay +# +Decay MyB+ +1.000 p+ anti-p- rho+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_psi2sXK.dec b/BaBar_2014/BpBm_psi2sXK.dec new file mode 100644 index 0000000..01f314b --- /dev/null +++ b/BaBar_2014/BpBm_psi2sXK.dec @@ -0,0 +1,36 @@ +################################################################### +# B- --> psi2s K- B+ --> Generic # +# | # +# | # +# |-->J/psi pi+pi- # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: G. London 18/11/99 # +# Mail: GLONDON@SLAC.STANFORD.EDU +################################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias Mypsi(2S) psi(2S) +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Mypsi(2S) K+ SVS; +Enddecay +# +Decay MyB- +1.000 Mypsi(2S) K- SVS; +Enddecay +# +Decay Mypsi(2S) +#0.700 J/psi pi+ pi- PHSP; +0.700 J/psi pi+ pi- VVPIPI; +Enddecay +End diff --git a/BaBar_2014/BpBm_rho0KSpip.dec b/BaBar_2014/BpBm_rho0KSpip.dec new file mode 100644 index 0000000..a26745c --- /dev/null +++ b/BaBar_2014/BpBm_rho0KSpip.dec @@ -0,0 +1,37 @@ +############################################################ +# # +# Decay: B+ -> rho0 KS pi+ (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho0 MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 rho0 MyK_S0 pi- PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rho0Kppi0.dec b/BaBar_2014/BpBm_rho0Kppi0.dec new file mode 100644 index 0000000..66652f1 --- /dev/null +++ b/BaBar_2014/BpBm_rho0Kppi0.dec @@ -0,0 +1,32 @@ +############################################################ +# # +# Decay: B+ -> rho0 K+ pi0 (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho0 K+ pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 rho0 K- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rho0Kstar_K0pip.dec b/BaBar_2014/BpBm_rho0Kstar_K0pip.dec new file mode 100644 index 0000000..19f2584 --- /dev/null +++ b/BaBar_2014/BpBm_rho0Kstar_K0pip.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Decay: B+ -> rho0 K*+ -> (pi+pi-)(Kspi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho0 MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho0 MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rho0Kstar_K0pip_ln.dec b/BaBar_2014/BpBm_rho0Kstar_K0pip_ln.dec new file mode 100644 index 0000000..ee08431 --- /dev/null +++ b/BaBar_2014/BpBm_rho0Kstar_K0pip_ln.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Decay: B+ -> rho0 K*+ -> (pi+pi-)(Kspi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 rho0 MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho0 MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rho0Kstar_K0pip_tr.dec b/BaBar_2014/BpBm_rho0Kstar_K0pip_tr.dec new file mode 100644 index 0000000..57a2b34 --- /dev/null +++ b/BaBar_2014/BpBm_rho0Kstar_K0pip_tr.dec @@ -0,0 +1,55 @@ +############################################################ +# # +# Decay: B+ -> rho0 K*+ -> (pi+pi-)(Kspi+) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK_S0 K_S0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho0 MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho0 MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 MyK_S0 pi+ VSS; +Enddecay +# +Decay MyK*- +1.0000 MyK_S0 pi- VSS; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rho0Kstar_Kppi0.dec b/BaBar_2014/BpBm_rho0Kstar_Kppi0.dec new file mode 100644 index 0000000..09c13f4 --- /dev/null +++ b/BaBar_2014/BpBm_rho0Kstar_Kppi0.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B+ -> rho0 K*+ -> (pi+pi-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho0 MyK*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho0 MyK*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rho0Kstar_Kppi0_ln.dec b/BaBar_2014/BpBm_rho0Kstar_Kppi0_ln.dec new file mode 100644 index 0000000..4620c0a --- /dev/null +++ b/BaBar_2014/BpBm_rho0Kstar_Kppi0_ln.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B+ -> rho0 K*+ -> (pi+pi-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 rho0 MyK*+ SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho0 MyK*- SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rho0Kstar_Kppi0_tr.dec b/BaBar_2014/BpBm_rho0Kstar_Kppi0_tr.dec new file mode 100644 index 0000000..c229e3b --- /dev/null +++ b/BaBar_2014/BpBm_rho0Kstar_Kppi0_tr.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B+ -> rho0 K*+ -> (pi+pi-)(K+pi0) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*+ K*+ +Alias MyK*- K*- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho0 MyK*+ SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho0 MyK*- SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*+ +1.0000 K+ pi0 VSS; +Enddecay +# +Decay MyK*- +1.0000 K- pi0 VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rho0lnu_FLATQ2.dec b/BaBar_2014/BpBm_rho0lnu_FLATQ2.dec new file mode 100644 index 0000000..2cedb77 --- /dev/null +++ b/BaBar_2014/BpBm_rho0lnu_FLATQ2.dec @@ -0,0 +1,37 @@ +############################################################################### +# This is a DECAY.DEC file for B+(-) -> rho l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> rho0 l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# phase space +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to rho l nu +# +Decay myB- +0.5000 rho0 e- anti-nu_e FLATQ2; +0.5000 rho0 mu- anti-nu_mu FLATQ2; +Enddecay +# +Decay myB+ +0.5000 rho0 e+ nu_e FLATQ2; +0.5000 rho0 mu+ nu_mu FLATQ2; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_rho0pippi0.dec b/BaBar_2014/BpBm_rho0pippi0.dec new file mode 100644 index 0000000..b176d63 --- /dev/null +++ b/BaBar_2014/BpBm_rho0pippi0.dec @@ -0,0 +1,32 @@ +############################################################ +# # +# Decay: B+ -> rho0 pi+ pi0 (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho0 pi+ pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 rho0 pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rho1450Kp.dec b/BaBar_2014/BpBm_rho1450Kp.dec new file mode 100644 index 0000000..f5a8d8e --- /dev/null +++ b/BaBar_2014/BpBm_rho1450Kp.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B+ -> rho(1450) K+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Kelly Ford # +# Created: 06-Feb-04 # +# # +################################################### +# +# Decay table for B+ -> rho(1450) K+ using phase space. +# +# BEGIN sp5 patch +# ( +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0-1370) = 1.434 +- 0.018 GeV/c^2 +# G(f0-1370) = 0.173 +- 0.032 GeV/c^2 +# ) +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho2S rho(2S)0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho2S K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myrho2S K- PHSP; +Enddecay +# +Decay Myrho2S +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_rho1450pi.dec b/BaBar_2014/BpBm_rho1450pi.dec new file mode 100644 index 0000000..7ad2369 --- /dev/null +++ b/BaBar_2014/BpBm_rho1450pi.dec @@ -0,0 +1,37 @@ +################################################### +# # +# B+ -> rho0(1450) pi+ + c.c. # +# | # +# | # +# `--> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 28/Jan/04 # +# # +################################################### +# +# Decay table for B+ -> rho0(1450) pi+ +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0(1450) decays to pi+ pi- (using a simple VSS model). +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho0 rho(2S)0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho0 pi+ SVS; +Enddecay +# +Decay MyB- +1.000 Myrho0 pi- SVS; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_rho1700Kp.dec b/BaBar_2014/BpBm_rho1700Kp.dec new file mode 100644 index 0000000..2b48849 --- /dev/null +++ b/BaBar_2014/BpBm_rho1700Kp.dec @@ -0,0 +1,43 @@ +################################################### +# # +# B+ -> rho(1700) K+ + c.c. # +# | # +# | # +# ---> pi+ pi- # +# # +# Author: Kelly Ford # +# Created: 06-Feb-04 # +# # +################################################### +# +# Decay table for B+ -> rho(1700) K+ using phase space. +# +# BEGIN sp5 patch +# ( +# mass and width taken from: +# Ds+->pi+pi+pi- fit [E791 hep-ex/0007027] +# E791 quotes: m(f0-1370) = 1.434 +- 0.018 GeV/c^2 +# G(f0-1370) = 0.173 +- 0.032 GeV/c^2 +# ) +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho3S rho(3S)0 +# +Decay Upsilon(4S) +0.50000 B+ MyB- VSS; +0.50000 B- MyB+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho3S K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myrho3S K- PHSP; +Enddecay +# +Decay Myrho3S +1.000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/BpBm_rho1700pi.dec b/BaBar_2014/BpBm_rho1700pi.dec new file mode 100644 index 0000000..00be80c --- /dev/null +++ b/BaBar_2014/BpBm_rho1700pi.dec @@ -0,0 +1,37 @@ +################################################### +# # +# B+ -> rho0(1700) pi+ + c.c. # +# | # +# | # +# `--> pi+ pi- # +# # +# Author: John Back jback@slac.stanford.edu # +# Created: 28/Jan/04 # +# # +################################################### +# +# Decay table for B+ -> rho0(1700) pi+ +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho0(1700) decays to pi+ pi- (using a simple VSS model). +# +Alias MyB+ B+ +Alias MyB- B- +Alias Myrho0 rho(3S)0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 Myrho0 pi+ SVS; +Enddecay +# +Decay MyB- +1.000 Myrho0 pi- SVS; +Enddecay +# +Decay Myrho0 +1.000 pi+ pi- VSS; +Enddecay +End diff --git a/BaBar_2014/BpBm_rho_D0mK3pi.dec b/BaBar_2014/BpBm_rho_D0mK3pi.dec new file mode 100644 index 0000000..31f4327 --- /dev/null +++ b/BaBar_2014/BpBm_rho_D0mK3pi.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B- -> D0 rho- B+ -> X # +# | # +# | # +# | # +# | # +# |-> K- pi+ pi+ pi- # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 rho- MyD0 SVS; +Enddecay +# +Decay MyB+ +1.00 rho+ Myanti-D0 SVS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi- pi+ PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/BpBm_rho_D0mKpi.dec b/BaBar_2014/BpBm_rho_D0mKpi.dec new file mode 100644 index 0000000..27ccc26 --- /dev/null +++ b/BaBar_2014/BpBm_rho_D0mKpi.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B- -> D0 rho- B+ -> X # +# | # +# | # +# | # +# | # +# |-> K- pi+ # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 rho- MyD0 SVS; +Enddecay +# +Decay MyB+ +1.00 rho+ Myanti-D0 SVS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/BpBm_rho_D0mKpipi0.dec b/BaBar_2014/BpBm_rho_D0mKpipi0.dec new file mode 100644 index 0000000..145a885 --- /dev/null +++ b/BaBar_2014/BpBm_rho_D0mKpipi0.dec @@ -0,0 +1,46 @@ +##################################################### +# # +# Decay: B- -> D0 rho- B+ -> X # +# | # +# | # +# | # +# | # +# |-> K- pi+ pi0 # +# # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 rho- MyD0 SVS; +Enddecay +# +Decay MyB+ +1.00 rho+ Myanti-D0 SVS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- pi0 D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 K- pi+ pi0 D_DALITZ; +Enddecay + +# +End + diff --git a/BaBar_2014/BpBm_rho_D0mKspipi.dec b/BaBar_2014/BpBm_rho_D0mKspipi.dec new file mode 100644 index 0000000..5d660ad --- /dev/null +++ b/BaBar_2014/BpBm_rho_D0mKspipi.dec @@ -0,0 +1,65 @@ +##################################################### +# # +# Decay: B- -> D0 rho- B+ -> X # +# | # +# | # +# | # +# | # +# |-> Ks pi+ pi- # +# |-> pi+ pi- # +# + cc # +# # +# Author: J Chauveau # +# created: 26 Oct 99 # +# # +##################################################### +# +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +Alias MyKs K_S0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +# +Decay Upsilon(4S) +0.5 MyB- B+ VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.00 rho- MyD0 SVS; +Enddecay +# +Decay MyB+ +1.00 rho+ Myanti-D0 SVS; +Enddecay +# +# +Decay Myanti-D0 +1.00 MyK0 pi- pi+ D_DALITZ; +Enddecay +# +Decay MyD0 +1.00 Myanti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay MyK0 +1.00 MyKs PHSP; +Enddecay +# +Decay Myanti-K0 +1.00 MyKs PHSP; +Enddecay +# +Decay MyKs +1.00 pi+ pi- PHSP; +Enddecay +# + +# +End + + + diff --git a/BaBar_2014/BpBm_rho_Dstar0mpiD0mKpi.dec b/BaBar_2014/BpBm_rho_Dstar0mpiD0mKpi.dec new file mode 100644 index 0000000..7461ec0 --- /dev/null +++ b/BaBar_2014/BpBm_rho_Dstar0mpiD0mKpi.dec @@ -0,0 +1,55 @@ +##################################################### +# # +# Decay: B- -> D*(2007)0 rho- B+ -> X # +# | # +# | # +# | # +# | # +# |-> D0 pi0 # +# |-> K- pi+ # +# # +# + cc # +# # +# Author: P Robbe # +# created: 30 Mar 2000 # +# # +##################################################### +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 Myanti-D*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.00 MyD*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0 +1.0000 MyD0 pi0 VSS; +Enddecay +# +Decay Myanti-D*0 +1.0000 Myanti-D0 pi0 VSS; +Enddecay +# +Decay Myanti-D0 +1.00 K+ pi- PHSP; +Enddecay +# +Decay MyD0 +1.00 K- pi+ PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BpBm_rhoee_Ball.dec b/BaBar_2014/BpBm_rhoee_Ball.dec new file mode 100644 index 0000000..19ed033 --- /dev/null +++ b/BaBar_2014/BpBm_rhoee_Ball.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> rho- e+ e- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 rho+ e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 rho- e+ e- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_rhogamma.dec b/BaBar_2014/BpBm_rhogamma.dec new file mode 100644 index 0000000..c95baf2 --- /dev/null +++ b/BaBar_2014/BpBm_rhogamma.dec @@ -0,0 +1,29 @@ +############################################################################### +# This is a DECAY.DEC file for the following modes: # +# # +# Up(4S) -> B+ B- + CC # +# | | # +# | -> rho- gamma # +# | # +# ->X # +# # +############################################################################### +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +Decay myB+ +1.0000 rho+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +Decay myB- +1.0000 rho- gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +End + + diff --git a/BaBar_2014/BpBm_rholnu.dec b/BaBar_2014/BpBm_rholnu.dec new file mode 100644 index 0000000..4f42576 --- /dev/null +++ b/BaBar_2014/BpBm_rholnu.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for B+(-) -> rho l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> rho0 l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# Mail: NATALIA@SLAC.STANFORD.EDU +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to rho l nu +# +Decay myB- +0.5000 rho0 e- anti-nu_e PHOTOS ISGW2; +0.5000 rho0 mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +Decay myB+ +0.5000 rho0 e+ nu_e PHOTOS ISGW2; +0.5000 rho0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rholnu_lcsr.dec b/BaBar_2014/BpBm_rholnu_lcsr.dec new file mode 100644 index 0000000..45ebbca --- /dev/null +++ b/BaBar_2014/BpBm_rholnu_lcsr.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for B+(-) -> rho l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> rho0 l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# LCSR model +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to rho l nu +# +Decay myB- +0.5000 rho0 e- anti-nu_e PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +0.5000 rho0 mu- anti-nu_mu PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +Enddecay +# +Decay myB+ +0.5000 rho0 e+ nu_e PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +0.5000 rho0 mu+ nu_mu PHOTOS SLPOLE 0.261 -0.29 -0.415 1.0 0.223 -0.93 -0.092 1.0 0.338 -1.37 0.315 1.0 0.372 -1.40 0.437 1.0; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rholnu_phsp.dec b/BaBar_2014/BpBm_rholnu_phsp.dec new file mode 100644 index 0000000..ff4e8d1 --- /dev/null +++ b/BaBar_2014/BpBm_rholnu_phsp.dec @@ -0,0 +1,36 @@ +############################################################################### +# This is a DECAY.DEC file for B+(-) -> rho l nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> rho0 l- nu_bar (l = e or mu) # +# | # +# -> X # +# # +# phase space +############################################################################### +# Create our own versions of B-, B+ which will decay to rho l nu +# and specify that they should be treated as antiparticles +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force B- to always decay to rho l nu +# +Decay myB- +0.5000 rho0 e- anti-nu_e PHOTOS PHSP; +0.5000 rho0 mu- anti-nu_mu PHOTOS PHSP; +Enddecay +# +Decay myB+ +0.5000 rho0 e+ nu_e PHOTOS PHSP; +0.5000 rho0 mu+ nu_mu PHOTOS PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhomKppip.dec b/BaBar_2014/BpBm_rhomKppip.dec new file mode 100644 index 0000000..d565bda --- /dev/null +++ b/BaBar_2014/BpBm_rhomKppip.dec @@ -0,0 +1,32 @@ +############################################################ +# # +# Decay: B+ -> rho- K+ pi+ (non-resonant) # +# B- -> generic +cc # +# # +# Author: S. EMERY # +# e-mail: emery@hep.saclay.cea.fr # +# Created: 23/07/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho- K+ pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 rho+ K- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhompippip.dec b/BaBar_2014/BpBm_rhompippip.dec new file mode 100644 index 0000000..9d0885d --- /dev/null +++ b/BaBar_2014/BpBm_rhompippip.dec @@ -0,0 +1,32 @@ +############################################################ +# # +# Decay: B+ -> rho- pi+ pi+ (non-resonant) # +# B- -> generic +cc # +# # +# Author: S. EMERY # +# e-mail: emery@hep.saclay.cea.fr # +# Created: 23/07/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho- pi+ pi+ PHSP; +Enddecay +# +Decay MyB- +1.000 rho+ pi- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhomumu_Ball.dec b/BaBar_2014/BpBm_rhomumu_Ball.dec new file mode 100644 index 0000000..0322600 --- /dev/null +++ b/BaBar_2014/BpBm_rhomumu_Ball.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> rho- mu+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 rho+ mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +Decay MyB- +1.00 rho- mu+ mu- PHOTOS BTOSLLBALL; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_rhopKpKm.dec b/BaBar_2014/BpBm_rhopKpKm.dec new file mode 100644 index 0000000..492e87d --- /dev/null +++ b/BaBar_2014/BpBm_rhopKpKm.dec @@ -0,0 +1,32 @@ +############################################################ +# # +# Decay: B+ -> rho+ K+ K- (non-resonant) # +# B- -> generic +cc # +# # +# Author: Sandrine Emery # +# e-mail: emery@slac.stanford.edu # +# Created: 23/07/2003 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ K+ K- PHSP; +Enddecay +# +Decay MyB- +1.000 rho- K- K+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhopKppim.dec b/BaBar_2014/BpBm_rhopKppim.dec new file mode 100644 index 0000000..cda7ed1 --- /dev/null +++ b/BaBar_2014/BpBm_rhopKppim.dec @@ -0,0 +1,32 @@ +############################################################ +# # +# Decay: B+ -> rho+ K+ pi- (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ K+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 rho- K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhopKstar_Kppim.dec b/BaBar_2014/BpBm_rhopKstar_Kppim.dec new file mode 100644 index 0000000..3ce640d --- /dev/null +++ b/BaBar_2014/BpBm_rhopKstar_Kppim.dec @@ -0,0 +1,50 @@ +############################################################ +# # +# Decay: B+ -> rho+ K*0 -> (pi+pi0)(K+pi-) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho+ MyK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho- MyK*0bar SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rhopKstar_Kppim_ln.dec b/BaBar_2014/BpBm_rhopKstar_Kppim_ln.dec new file mode 100644 index 0000000..d56256f --- /dev/null +++ b/BaBar_2014/BpBm_rhopKstar_Kppim_ln.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Decay: B+ -> rho+ K*0 -> (pi+pi0)(K+pi-) # +# B- -> generic +cc # +# (Longitud. polarization) # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 rho+ MyK*0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho- MyK*0bar SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rhopKstar_Kppim_tr.dec b/BaBar_2014/BpBm_rhopKstar_Kppim_tr.dec new file mode 100644 index 0000000..d6ea5ae --- /dev/null +++ b/BaBar_2014/BpBm_rhopKstar_Kppim_tr.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Decay: B+ -> rho+ K*0 -> (pi+pi0)(K+pi-) # +# B- -> generic +cc # +# (Tansverse polarization) # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 07/27/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK*0 K*0 +Alias MyK*0bar K*0 +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho+ MyK*0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho- MyK*0bar SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay MyK*0bar +1.0000 K- pi+ VSS; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rhopantiD0_D0mK0K0.dec b/BaBar_2014/BpBm_rhopantiD0_D0mK0K0.dec new file mode 100644 index 0000000..a25d5b4 --- /dev/null +++ b/BaBar_2014/BpBm_rhopantiD0_D0mK0K0.dec @@ -0,0 +1,47 @@ +################################################### +# # +# B+ -> rho+ anti-D0 + c.c. # +# | | # +# | ----------> K0 pi0 # +# ---> pi+ pi0 # +# # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B+ -> rho+ anti-D0 +# using a simple (S)calar to (V)ector-(S)calar model. +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyD0 D0 +Alias Myanti-D0 anti-D0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ Myanti-D0 SVS; +Enddecay +# +Decay MyB- +1.000 rho- MyD0 SVS; +Enddecay +# +Decay MyD0 +1.000 anti-K0 pi0 PHSP; +Enddecay +# +Decay Myanti-D0 +1.000 K0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhopemmup_PHSP.dec b/BaBar_2014/BpBm_rhopemmup_PHSP.dec new file mode 100644 index 0000000..6305488 --- /dev/null +++ b/BaBar_2014/BpBm_rhopemmup_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> rho- e+ mu- # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 rho+ mu+ e- PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 rho- e+ mu- PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_rhopepmum_PHSP.dec b/BaBar_2014/BpBm_rhopepmum_PHSP.dec new file mode 100644 index 0000000..97bc6de --- /dev/null +++ b/BaBar_2014/BpBm_rhopepmum_PHSP.dec @@ -0,0 +1,34 @@ +################################################### +# # +# B- -> rho- e- mu+ # +# # +# + cc # +# # +# Author: Jeffrey Berryhill (berryhil) # +# created: 5/Sep/03 # +################################################### +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.00 rho+ mu- e+ PHOTOS PHSP; +Enddecay +# +Decay MyB- +1.00 rho- e- mu+ PHOTOS PHSP; +Enddecay +# +# +End + + + + + + diff --git a/BaBar_2014/BpBm_rhopetapi0.dec b/BaBar_2014/BpBm_rhopetapi0.dec new file mode 100644 index 0000000..f7b0549 --- /dev/null +++ b/BaBar_2014/BpBm_rhopetapi0.dec @@ -0,0 +1,36 @@ +################################################### +# # +# B+ -> rho+ eta pi0 + c.c. # +# | # +# | # +# ---> pi+ pi0 # +# # +# # +# Author: Richard Sloane # +# Created: 20 Jan 2003 # +# # +################################################### +# +# Decay table for B+ -> rho+ eta pi0 +# using a phase space model (PHSP) +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ pi0 eta PHSP; +Enddecay +# +Decay MyB- +1.000 rho- pi0 eta PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhoppi0pi0.dec b/BaBar_2014/BpBm_rhoppi0pi0.dec new file mode 100644 index 0000000..6a77a60 --- /dev/null +++ b/BaBar_2014/BpBm_rhoppi0pi0.dec @@ -0,0 +1,33 @@ +################################################### +# # +# B+ -> rho+ pi0 pi0 + c.c. # +# # +# Author: Richard Sloane # +# Email: sloane@slac.stanford.edu # +# Created: 14 Jan 2003 # +# # +################################################### +# +# Decay table for B+ -> rho+ pi0 pi0 +# using a phase space model +# The rho+ decays to pi+ pi0 (using a simple VSS model). +# +# +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ pi0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.000 rho- pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhoppippim.dec b/BaBar_2014/BpBm_rhoppippim.dec new file mode 100644 index 0000000..d370ac2 --- /dev/null +++ b/BaBar_2014/BpBm_rhoppippim.dec @@ -0,0 +1,32 @@ +############################################################ +# # +# Decay: B+ -> rho+ pi+ pi- (non-resonant) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 03/30/2001 # +# # +############################################################ +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 rho+ pi+ pi- PHSP; +Enddecay +# +Decay MyB- +1.000 rho- pi- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhoprho0.dec b/BaBar_2014/BpBm_rhoprho0.dec new file mode 100644 index 0000000..cc2f6c4 --- /dev/null +++ b/BaBar_2014/BpBm_rhoprho0.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B+ -> rho+ rho0 -> (pi+pi0)(pi+pi-) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rhoprho0_ln.dec b/BaBar_2014/BpBm_rhoprho0_ln.dec new file mode 100644 index 0000000..24278f6 --- /dev/null +++ b/BaBar_2014/BpBm_rhoprho0_ln.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B+ -> rho+ rho0 -> (pi+pi0)(pi+pi-) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; *** +# +Decay MyB+ +1.0000 rho+ rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho- rho0 SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rhoprho0_tr.dec b/BaBar_2014/BpBm_rhoprho0_tr.dec new file mode 100644 index 0000000..d2a608a --- /dev/null +++ b/BaBar_2014/BpBm_rhoprho0_tr.dec @@ -0,0 +1,40 @@ +############################################################ +# # +# Decay: B+ -> rho+ rho0 -> (pi+pi0)(pi+pi-) # +# B- -> generic +cc # +# # +# Author: Andrei Gritsan # +# e-mail: gritsan@slac.stanford.edu # +# Created: 08/10/2000 # +# # +############################################################ +# +# +# Define my particles +# +Alias MyB+ B+ +Alias MyB- B- +# +# 'Vector -> Scalar + Scalar' +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# SVV_HELAMP Hplus phHplus Hzero phHzero Hminus phHminus; +# Tansverse polarization: SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; *** +# Longitud. polarization: SVV_HELAMP 0.0 0.0 1.0 0.0 0.0 0.0; +# +Decay MyB+ +1.0000 rho+ rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyB- +1.0000 rho- rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +End + + diff --git a/BaBar_2014/BpBm_rhorho0pi0.dec b/BaBar_2014/BpBm_rhorho0pi0.dec new file mode 100644 index 0000000..c01e1bd --- /dev/null +++ b/BaBar_2014/BpBm_rhorho0pi0.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B+ -> rho+ rho0 pi0 +cc # +# # +# Author: I. Forster # +# created: 14/05/03 # +# # +################################################### +# +# Decay table for B+ -> rho+ rho0 pi0 using a simple PHSP +# model. +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 rho+ rho0 pi0 PHSP; +Enddecay +# +Decay MyB- +1.0000 rho- rho0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_rhorhopi.dec b/BaBar_2014/BpBm_rhorhopi.dec new file mode 100644 index 0000000..bf9f069 --- /dev/null +++ b/BaBar_2014/BpBm_rhorhopi.dec @@ -0,0 +1,29 @@ +################################################### +# # +# B+ -> rho- rho+ pi+ +cc # +# # +# Author: I. Forster # +# created: 14/05/03 # +# # +################################################### +# +# Decay table for B+ -> rho- rho+ pi+ using a simple PHSP +# model. +# +Alias MyB+ B+ +Alias MyB- B- +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.0000 rho- rho+ pi+ PHSP; +Enddecay +# +Decay MyB- +1.0000 rho+ rho- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_sigmapbarpi0_amplitude.dec b/BaBar_2014/BpBm_sigmapbarpi0_amplitude.dec new file mode 100644 index 0000000..4c90e74 --- /dev/null +++ b/BaBar_2014/BpBm_sigmapbarpi0_amplitude.dec @@ -0,0 +1,39 @@ +Alias MyB+ B+ +Alias MyB- B- +Alias MyLambda0 Lambda0 +Alias Myanti-Lambda0 anti-Lambda0 +Alias MySigma0 Sigma0 +Alias Myanti-Sigma0 anti-Sigma0 + +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay + +Decay MyB- +1.000 MySigma0 anti-p- pi0 B_TO_2BARYON_SCALAR; +Enddecay + +Decay MyB+ +1.000 Myanti-Sigma0 p+ pi0 B_TO_2BARYON_SCALAR; +Enddecay + +Decay MySigma0 +1.000 MyLambda0 gamma PHSP; +Enddecay + +Decay Myanti-Sigma0 +1.000 Myanti-Lambda0 gamma PHSP; +Enddecay + +Decay MyLambda0 +1.00 p+ pi- PHSP; +Enddecay + +Decay Myanti-Lambda0 +1.00 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/BpBm_taunu.dec b/BaBar_2014/BpBm_taunu.dec new file mode 100644 index 0000000..07b5359 --- /dev/null +++ b/BaBar_2014/BpBm_taunu.dec @@ -0,0 +1,32 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> tau nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> tau- nu_bar # +# | # +# -> X # +# Kevin Hall 12 Feb 1999 # +########################################################################### +# Create our own versions of B-, B+ which will decay to tau nu_tau +# +Alias myB- B- +Alias myB+ B+ +ChargeConj myB+ myB- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force myB to always decay to tau nu_tau +# +Decay myB- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +Decay myB+ +1.0000 tau+ nu_tau SLN; +Enddecay +# +End diff --git a/BaBar_2014/BpBm_taunu_DX.dec b/BaBar_2014/BpBm_taunu_DX.dec new file mode 100644 index 0000000..b21a64f --- /dev/null +++ b/BaBar_2014/BpBm_taunu_DX.dec @@ -0,0 +1,332 @@ +#Define the B0B0bar mass difference +Define dm 0.464e12 +# define the values of the CKM angles (alpha=70, beta=40) +Define alpha 1.365 +Define beta 0.39 +Define gamma 1.387 +# +#JetSet parameter modifications +# +# O.Long : March 30, 2000 +# Change from using Peterson fragmentation to Lund fragmentation +# with the default parameters (A=0.30, B=0.58) +# +#(Very important that there are no blank spaces in the parameter string!) +# Number of flavor produced. 4 = udsc production (was 5 before) +JetSetPar MSTJ(104)=5 +# turn on initial state radiation (was off before) +JetSetPar MSTJ(107)=1 +#use Lund fragmentation with default parameters +JetSetPar MSTJ(11)=4 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(41)=.30 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(42)=.58 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(43)=.50 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(44)=.90 +#eps_c from CLEO 8/97 +JetSetPar PARJ(54)=-.040 +# eps_b +JetSetPar PARJ(55)=-.004 +#Turn of B0-B0B mixing in JetSet: +JetSetPar MSTJ(26)=0 +# control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1 +JetSetPar PARJ(14)=0.05 +JetSetPar PARJ(15)=0.05 +JetSetPar PARJ(16)=0.05 +JetSetPar PARJ(17)=0.05 +#cut-off parameter used to stop fragmentation process (was .4, CLEO uses.3) +JetSetPar PARJ(33)=0.3 +# +# +Decay vpho +1.000 JSCONT 0; +Enddecay +# +# use new VSS_BMIX mixing decay model (DK,28-Oct-1999) +Decay Upsilon(4S) +1.000 B+ B- VSS; +Enddecay +# +# +Decay B- +# +# B -> D(*) X Exclusive Modes +# +0.0046 D*0 pi- SVS; +0.0053 D0 pi- PHSP; +0.0134 D0 rho- PHSP; +0.0155 D*0 rho- SVV_HELAMP 0.228 0.95 0.283 1.13 0.932 0; +0.0015 D_10 pi- PHSP; +0.0007 D_10 rho- PHSP; +0.0005 D0 pi0 pi- PHSP; +0.0005 D*0 pi0 pi- PHSP; +0.0005 D+ pi- pi- PHSP; +0.0021 D*+ pi- pi- PHSP; +# +0.0050 a_1- D0 SVS; +0.0042 D0 rho0 pi- PHSP; +0.0050 D0 pi+ pi- pi- PHSP; +0.0190 D*0 a_1- PHSP; +0.0005 D*0 rho0 pi- PHSP; +0.0009 D*0 pi+ pi- pi- PHSP; +# +0.0020 D+ rho- pi- PHSP; +0.0020 D+ pi0 pi- pi- PHSP; +0.0020 D*+ rho- pi- PHSP; +0.0150 D*+ pi0 pi- pi- PHSP; +0.0005 D*0 rho- pi0 PHSP; +0.0005 D*0 pi- pi0 pi0 PHSP; +# +Enddecay +# +Decay B+ +# +# b -> l nu +# +0.000050 tau+ nu_tau SLN; +0.000000 mu+ nu_mu SLN; +0.000000 e+ nu_e SLN; +# +Enddecay +# +# +# The tau branching fractions needs to be looked over! +# +Decay tau+ +0.1781 e+ nu_e anti-nu_tau TAULNUNU; +0.1737 mu+ nu_mu anti-nu_tau TAULNUNU; +0.1108 pi+ anti-nu_tau TAUSCALARNU; +0.2515 rho+ anti-nu_tau TAUVECTORNU; +0.1790 a_1+ anti-nu_tau TAUVECTORNU; +0.0071 K+ anti-nu_tau TAUSCALARNU; +0.0134 K*+ anti-nu_tau TAUVECTORNU; +0.0450 anti-nu_tau pi+ pi- pi+ pi0 JETSET 41; +0.0100 anti-nu_tau pi+ pi0 pi0 pi0 JETSET 41; +0.0015 anti-nu_tau K- pi+ K+ JETSET 41; +0.0015 anti-nu_tau K0 pi+ anti-K0 JETSET 41; +0.0015 anti-nu_tau K+ pi0 K0 JETSET 41; +0.0005 anti-nu_tau K+ pi0 pi0 JETSET 41; +0.0050 anti-nu_tau K+ pi+ pi- JETSET 41; +0.0055 anti-nu_tau pi+ anti-K0 pi0 JETSET 41; +0.0017 anti-nu_tau eta pi+ pi0 JETSET 41; +0.0013 anti-nu_tau gamma pi+ pi0 JETSET 41; +0.0009 anti-nu_tau pi+ pi- pi+ pi0 pi0 PHSP; +0.0008 anti-nu_tau pi+ pi- pi- pi+ pi+ PHSP; +0.0003 anti-nu_tau pi+ pi- pi- pi+ pi+ pi0 PHSP; +0.0005 anti-nu_tau pi+ pi- pi+ pi0 pi0 pi0 PHSP; +0.0010 anti-nu_tau pi+ pi0 pi0 pi0 pi0 PHSP; +0.0039 anti-nu_tau pi+ omega pi0 JETSET 41; +0.0010 anti-nu_tau K+ K0 JETSET 41; +0.0010 anti-nu_tau K+ omega JETSET 41; +Enddecay +# +# +# Vector Mesons +# +Decay D*+ +0.6830 D0 pi+ VSS; +0.3060 D+ pi0 VSS; +0.0110 D+ gamma VSP_PWAVE; +Enddecay +Decay D*0 +0.6190 D0 pi0 VSS; +0.3810 D0 gamma VSP_PWAVE; +Enddecay +# +# D+ Meson +# +Decay D+ +# +0.0289 anti-K0 pi+ PHSP; +0.0800 a_1+ anti-K0 SVS; +0.0210 anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +# the Dalitz mode below includes K0bar rho+, +# and K*bar(892)0 pi+ resonances +0.0970 anti-K0 pi+ pi0 D_DALITZ; +0.0100 anti-K0 eta pi+ PHSP; +0.0420 anti-K0 rho0 pi+ PHSP; +0.0031 anti-K0 omega pi+ PHSP; +0.0110 K- rho+ pi+ PHSP; +0.0200 K*- pi+ pi+ PHSP; +0.0420 anti-K*0 pi0 pi+ PHSP; +0.0100 anti-K*0 eta pi+ PHSP; +0.0029 anti-K*0 rho0 pi+ PHSP; +0.0031 anti-K*0 omega pi+ PHSP; +0.0100 K*- rho+ pi+ PHSP; +# +0.0640 K- pi+ pi+ pi0 PHSP; +0.0700 anti-K0 pi+ pi+ pi- PHSP; +0.0188 anti-K0 pi+ pi0 pi0 PHSP; +0.0072 K- pi+ pi+ pi+ pi- PHSP; +0.0220 K- pi+ pi+ pi0 pi0 PHSP; +0.0540 anti-K0 pi+ pi+ pi- pi0 PHSP; +0.0035 anti-K0 pi+ pi0 pi0 pi0 PHSP; +# +Enddecay +# +Decay D0 +# +0.0385 K- pi+ PHSP; +0.0212 anti-K0 pi0 PHSP; +0.0071 anti-K0 eta PHSP; +0.0172 anti-K0 eta' PHSP; +0.0210 omega anti-K0 SVS; +0.0190 anti-K*0 eta SVS; +0.0020 anti-K*0 eta' SVS; +0.0730 a_1+ K- SVS; +0.0610 K*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0147 anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0110 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +#0.0085 K*BR pi0 SVS; +#0.0107 K_1- pi+ SVS; +#0.0071 anti-K_10 pi0 SVS; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0 pi+ pi- D_DALITZ; +0.0145 anti-K0 pi0 pi0 PHSP; +0.0150 anti-K*0 pi+ pi- PHSP; +0.0116 anti-K*0 pi0 pi0 PHSP; +0.0100 K*- pi+ pi0 PHSP; +0.0068 K- rho+ pi0 PHSP; +0.0060 K- pi+ rho0 PHSP; +0.0303 K- pi+ omega PHSP; +0.0100 K- pi+ eta PHSP; +0.0075 K- pi+ eta' PHSP; +0.0143 K- pi+ pi+ pi- PHSP; +0.0407 anti-K0 pi+ pi- pi0 PHSP; +0.0630 K- pi+ pi0 pi0 PHSP; +0.0200 anti-K0 pi0 pi0 pi0 PHSP; +0.0038 K- pi+ pi+ pi- pi0 PHSP; +0.0038 K- pi+ pi0 pi0 pi0 PHSP; +0.0038 anti-K0 pi+ pi- pi+ pi- PHSP; +0.0038 anti-K0 pi+ pi- pi0 pi0 PHSP; +# +Enddecay +# +# +# D** +# +Decay D_10 +0.3333 D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 D*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# Strange Mesons +# +# +Decay K_S0 +0.6861 pi+ pi- PHSP; +0.3139 pi0 pi0 PHSP; +Enddecay +# +# K_L0 is decayed in GEANT +# +Decay K0 +0.500 K_L0 PHSP; +0.500 K_S0 PHSP; +Enddecay +Decay anti-K0 +0.500 K_L0 PHSP; +0.500 K_S0 PHSP; +Enddecay +# +Decay K*0 +0.6657 K+ pi- VSS; +0.3323 K0 pi0 VSS; +0.0020 K0 gamma VSP_PWAVE; +Enddecay +Decay anti-K*0 +0.6657 K- pi+ VSS; +0.3323 anti-K0 pi0 VSS; +0.0020 anti-K0 gamma VSP_PWAVE; +Enddecay +Decay K*+ +0.6660 K0 pi+ VSS; +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +Enddecay +Decay K*- +0.6660 anti-K0 pi- VSS; +0.3330 K- pi0 VSS; +0.0010 K- gamma VSP_PWAVE; +Enddecay +# +# Light Mesons +# +Decay pi0 +0.9880 gamma gamma PHSP; +0.0120 e+ e- gamma PI0_DALITZ; +Enddecay +# +Decay eta +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0007 gamma gamma pi0 PHSP; +0.0013 pi+ pi- e+ e- PHSP; +Enddecay +# +Decay rho0 +1.000 pi+ pi- VSS; +Enddecay +Decay rho+ +1.000 pi+ pi0 VSS; +Enddecay +Decay rho- +1.000 pi- pi0 VSS; +Enddecay +# +Decay omega +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0850 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; +0.0008 eta gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHSP; +0.0001 pi0 mu+ mu- PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0004 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay +# +Decay eta' +0.4370 pi+ pi- eta PHSP; +0.2080 pi0 pi0 eta PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0302 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; +0.0001 gamma mu- mu+ PHSP; +Enddecay +# +Decay a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5080 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay a_10 +0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End + + + + + + diff --git a/BaBar_2014/BpBm_taunu_tau_to_3pinu.dec b/BaBar_2014/BpBm_taunu_tau_to_3pinu.dec new file mode 100644 index 0000000..3c927ae --- /dev/null +++ b/BaBar_2014/BpBm_taunu_tau_to_3pinu.dec @@ -0,0 +1,45 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> tau nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> tau- nu_bar # +# | | # +# -> X +-> pi-pi+pi- nu # +########################################################################### +# Create our own versions of B-, B+ which will decay to tau nu_tau +# +Alias myB- B- +Alias myB+ B+ +Alias mytau+ tau+ +Alias mytau- tau- +ChargeConj myB+ myB- +ChargeConj mytau+ mytau- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force myB to always decay to tau nu_tau +# +Decay myB- +1.0000 mytau- anti-nu_tau SLN; +Enddecay +# +Decay myB+ +1.0000 mytau+ nu_tau SLN; +Enddecay +# +# force mytau to always decay to 3pi nu +# +Decay mytau- +1.000 pi- pi- pi+ nu_tau TAUHADNU -0.108 0.7749 0.149 1.364 0.400 1.23 0.4; +Enddecay +# +CDecay mytau+ +# +End + + + diff --git a/BaBar_2014/BpBm_taunu_tau_to_enunu.dec b/BaBar_2014/BpBm_taunu_tau_to_enunu.dec new file mode 100644 index 0000000..891f408 --- /dev/null +++ b/BaBar_2014/BpBm_taunu_tau_to_enunu.dec @@ -0,0 +1,47 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> tau nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> tau- nu_bar # +# | | # +# -> X +->e- nunu # +# Joe Izen 12/13/99 # +# Mail: JOE@SLAC.STANFORD.EDU +########################################################################### +# Create our own versions of B-, B+ which will decay to tau nu_tau +# +Alias myB- B- +Alias myB+ B+ +Alias mytau+ tau+ +Alias mytau- tau- +ChargeConj myB+ myB- +ChargeConj mytau+ mytau- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force myB to always decay to tau nu_tau +# +Decay myB- +1.0000 mytau- anti-nu_tau SLN; +Enddecay +# +Decay myB+ +1.0000 mytau+ nu_tau SLN; +Enddecay +# +# force mytau to always decay to mu nu nu +# +Decay mytau- +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +# +CDecay mytau+ +# +End + + + diff --git a/BaBar_2014/BpBm_taunu_tau_to_mununu.dec b/BaBar_2014/BpBm_taunu_tau_to_mununu.dec new file mode 100644 index 0000000..b636569 --- /dev/null +++ b/BaBar_2014/BpBm_taunu_tau_to_mununu.dec @@ -0,0 +1,50 @@ +########################################################################### +# This is a DECAY.DEC file for B+(-) -> tau nu: # +# Up(4S) -> B+ B- +CC # +# | | # +# | -> tau- nu_bar # +# | | # +# -> X +->mu- nunu # +# Joe Izen 12/13/99 # +# Mail: JOE@SLAC.STANFORD.EDU +########################################################################### +# Create our own versions of B-, B+ which will decay to tau nu_tau +# +Alias myB- B- +Alias myB+ B+ +Alias mytau+ tau+ +Alias mytau- tau- +ChargeConj myB+ myB- +ChargeConj mytau+ mytau- +# +# +Decay Upsilon(4S) +0.5000 B+ myB- VSS; +0.5000 B- myB+ VSS; +Enddecay +# +# force myB to always decay to tau nu_tau +# +Decay myB- +1.0000 mytau- anti-nu_tau SLN; +Enddecay +# +Decay myB+ +1.0000 mytau+ nu_tau SLN; +Enddecay +# +# force mytau to always decay to mu nu nu +# +Decay mytau- +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +# +CDecay mytau+ +#Decay mytau+ +#1.0 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +#Enddecay +# +End + + + diff --git a/BaBar_2014/BpToDlnuX_D0KpimormDpKpipi_BmToKnunu.dec b/BaBar_2014/BpToDlnuX_D0KpimormDpKpipi_BmToKnunu.dec new file mode 100644 index 0000000..315f056 --- /dev/null +++ b/BaBar_2014/BpToDlnuX_D0KpimormDpKpipi_BmToKnunu.dec @@ -0,0 +1,241 @@ +################################################### +# # +# B+ToDlnuX_D0Kpi-or-D+Kpipi_B-ToKnunu # +# # +# Decay: B- -> D0 l- nu X B+ -> K+nunubar # +# | # +# |->K- pi+ # +# or # +# B- -> D+ l- nu X B+ -> K+nunubar # +# | # +# |->K- pi+ pi+ # +# # +# + cc # +# # +# The semileptonic B BRs and excited charm BRs # +# have been taken from the analysis-8 version of # +# DECAY.DEC; they may need to be changed in future# +# versions of this decay file. # +# # +# Author: Bob Kowalewski kowalews@uvic.ca # +# 2001/04/30 # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MySB+ B+ +Alias MySB- B- +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD*- D*- +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD_10 D_10 +Alias Myanti-D_10 anti-D_10 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD'_10 D'_10 +Alias Myanti-D'_10 anti-D'_10 +Alias MyD_0*+ D_0*+ +Alias MyD_0*- D_0*- +Alias MyD_0*0 D_0*0 +Alias Myanti-D_0*0 anti-D_0*0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD_2*0 D_2*0 +Alias Myanti-D_2*0 anti-D_2*0 +# +Decay Upsilon(4S) +0.50 MyB+ MySB- VSS; +0.50 MyB- MySB+ VSS; +Enddecay +# +Decay MySB+ +1.0000 K+ nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MySB- +1.0000 K- nu_e anti-nu_e PHOTOS PHSP ; +Enddecay +# +Decay MyB- +# b -> c semileptonic +# +0.0560 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 e- anti-nu_e PHOTOS ISGW2; +0.0056 MyD_10 e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD'_10 e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 MyD*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 MyD+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 MyD0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +# +0.0560 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +0.0056 MyD_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 MyD*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 MyD+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 MyD0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyB+ +# +# b -> c semileptonic +0.0560 Myanti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 e+ nu_e PHOTOS ISGW2; +0.0056 Myanti-D_10 e+ nu_e PHOTOS ISGW2; +0.0020 Myanti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0037 Myanti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0037 Myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 MyD*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 Myanti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 MyD- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 Myanti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 Myanti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0056 Myanti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0020 Myanti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0037 Myanti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0037 Myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 MyD*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 Myanti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 MyD- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 Myanti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +# Vector Mesons +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +0.3060 MyD+ pi0 VSS; +0.0110 MyD+ gamma VSP_PWAVE; +Enddecay +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +0.3060 MyD- pi0 VSS; +0.0110 MyD- gamma VSP_PWAVE; +Enddecay +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +# D** +# +Decay MyD_0*+ +0.3333 MyD+ pi0 PHSP; +0.6667 MyD0 pi+ PHSP; +Enddecay +Decay MyD_0*- +0.3333 MyD- pi0 PHSP; +0.6667 Myanti-D0 pi- PHSP; +Enddecay +Decay MyD_0*0 +0.3333 MyD0 pi0 PHSP; +0.6667 MyD+ pi- PHSP; +Enddecay +Decay Myanti-D_0*0 +0.3333 Myanti-D0 pi0 PHSP; +0.6667 MyD- pi+ PHSP; +Enddecay +# +Decay MyD_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay MyD_1- +0.3333 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +Enddecay +Decay MyD_10 +0.3333 MyD*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay Myanti-D_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD'_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.3333 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0 +; +Enddecay +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 MyD*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay Myanti-D'_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD+ pi0 TSS; +0.4590 MyD0 pi+ TSS; +Enddecay +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 Myanti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD- pi0 TSS; +0.4590 Myanti-D0 pi- TSS; +Enddecay +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1030 MyD*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD0 pi0 TSS; +0.4590 MyD+ pi- TSS; +Enddecay +Decay Myanti-D_2*0 +0.1030 Myanti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0 +; +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 Myanti-D0 pi0 TSS; +0.4590 MyD- pi+ TSS; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +End + + + diff --git a/BaBar_2014/BpToDlnuX_D0KpimormDpKpipi_BmToTauNu.dec b/BaBar_2014/BpToDlnuX_D0KpimormDpKpipi_BmToTauNu.dec new file mode 100644 index 0000000..6e2cdc2 --- /dev/null +++ b/BaBar_2014/BpToDlnuX_D0KpimormDpKpipi_BmToTauNu.dec @@ -0,0 +1,241 @@ +################################################### +# # +# B+ToDlnuX_D0Kpi-or-D+Kpipi_B-ToTauNu # +# # +# Decay: B- -> D0 l- nu X B+ -> tau+nu_tau # +# | # +# |->K- pi+ # +# or # +# B- -> D+ l- nu X B+ -> tau+nu_tau # +# | # +# |->K- pi+ pi+ # +# # +# + cc # +# # +# The semileptonic B BRs and excited charm BRs # +# have been taken from the analysis-8 version of # +# DECAY.DEC; they may need to be changed in future# +# versions of this decay file. # +# # +# Author: Bob Kowalewski kowalews@uvic.ca # +# 2001/04/30 # +################################################### +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MySB+ B+ +Alias MySB- B- +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyD+ D+ +Alias MyD- D- +Alias MyD*- D*- +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD_10 D_10 +Alias Myanti-D_10 anti-D_10 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD'_10 D'_10 +Alias Myanti-D'_10 anti-D'_10 +Alias MyD_0*+ D_0*+ +Alias MyD_0*- D_0*- +Alias MyD_0*0 D_0*0 +Alias Myanti-D_0*0 anti-D_0*0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD_2*0 D_2*0 +Alias Myanti-D_2*0 anti-D_2*0 +# +Decay Upsilon(4S) +0.50 MyB+ MySB- VSS; +0.50 MyB- MySB+ VSS; +Enddecay +# +Decay MySB+ +1.0000 tau+ nu_tau SLN; +Enddecay +# +Decay MySB- +1.0000 tau- anti-nu_tau SLN; +Enddecay +# +Decay MyB- +# b -> c semileptonic +# +0.0560 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 e- anti-nu_e PHOTOS ISGW2; +0.0056 MyD_10 e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD'_10 e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 MyD*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 MyD+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 MyD0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +# +0.0560 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +0.0056 MyD_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 MyD*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 MyD+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 MyD0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyB+ +# +# b -> c semileptonic +0.0560 Myanti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 e+ nu_e PHOTOS ISGW2; +0.0056 Myanti-D_10 e+ nu_e PHOTOS ISGW2; +0.0020 Myanti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0037 Myanti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0037 Myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 MyD*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 Myanti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 MyD- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 Myanti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 Myanti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0056 Myanti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0020 Myanti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0037 Myanti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0037 Myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 MyD*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 Myanti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 MyD- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 Myanti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +# Vector Mesons +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +0.3060 MyD+ pi0 VSS; +0.0110 MyD+ gamma VSP_PWAVE; +Enddecay +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +0.3060 MyD- pi0 VSS; +0.0110 MyD- gamma VSP_PWAVE; +Enddecay +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +# D** +# +Decay MyD_0*+ +0.3333 MyD+ pi0 PHSP; +0.6667 MyD0 pi+ PHSP; +Enddecay +Decay MyD_0*- +0.3333 MyD- pi0 PHSP; +0.6667 Myanti-D0 pi- PHSP; +Enddecay +Decay MyD_0*0 +0.3333 MyD0 pi0 PHSP; +0.6667 MyD+ pi- PHSP; +Enddecay +Decay Myanti-D_0*0 +0.3333 Myanti-D0 pi0 PHSP; +0.6667 MyD- pi+ PHSP; +Enddecay +# +Decay MyD_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay MyD_1- +0.3333 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +Enddecay +Decay MyD_10 +0.3333 MyD*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay Myanti-D_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD'_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.3333 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0 +; +Enddecay +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 MyD*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay Myanti-D'_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD+ pi0 TSS; +0.4590 MyD0 pi+ TSS; +Enddecay +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 Myanti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD- pi0 TSS; +0.4590 Myanti-D0 pi- TSS; +Enddecay +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1030 MyD*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD0 pi0 TSS; +0.4590 MyD+ pi- TSS; +Enddecay +Decay Myanti-D_2*0 +0.1030 Myanti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0 +; +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 Myanti-D0 pi0 TSS; +0.4590 MyD- pi+ TSS; +Enddecay +# +Decay MyD+ +1.0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +End + + + diff --git a/BaBar_2014/Bp_JpsiKp_hadrons.dec b/BaBar_2014/Bp_JpsiKp_hadrons.dec new file mode 100644 index 0000000..87a57cf --- /dev/null +++ b/BaBar_2014/Bp_JpsiKp_hadrons.dec @@ -0,0 +1,111 @@ +############################################################ +# # +# Decay: B+ -> J/psi K+, B- -> X # +# | # +# -> several hadronic modes # +# (allowed and not) # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyJpsi J/psi +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyJpsi K+ SVS; +Enddecay +# +# +Decay MyB- + 1.0000 MyJpsi K- SVS; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyJpsi + 1.0000 rho0 rho0 PHSP; + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 pi+ pi- pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 0.5000 Myanti-K*0 K+ pi- PHSP; + 0.5000 MyK*0 K- pi+ PHSP; + 1.0000 pi+ pi- K+ K- PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 K+ MyK_S0 pi- PHSP; + 0.5000 K- MyK_S0 pi+ PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 1.0000 pi0 K+ K- PHSP; + 1.0000 K+ K- K+ K- PHSP; + 1.0000 p+ anti-p- PHSP; + 1.0000 Myeta pi+ pi- PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_chi1cKp_jpsiGam_X.dec b/BaBar_2014/Bp_chi1cKp_jpsiGam_X.dec new file mode 100644 index 0000000..fc8fc87 --- /dev/null +++ b/BaBar_2014/Bp_chi1cKp_jpsiGam_X.dec @@ -0,0 +1,61 @@ +############################################################ +# # +# Decay: B+ -> chi1c K+, B- -> X # +# | # +# \->j/psi gamma # +# | # +# \-> X # +# + cc # +# # +# Author: R. Capra 01/04/03 # +############################################################ +# +Define beta 0.34 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyChi1C chi_c1 +Alias MyJPsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) + 0.50 MyB+ B- VSS; + 0.50 MyB- B+ VSS; +Enddecay +# +Decay MyB+ + 1.00 MyChi1C K+ SVS; +Enddecay +# +Decay MyB- + 1.00 MyChi1C K- SVS; +Enddecay +# +Decay MyChi1C + 1.00 MyJPsi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyJPsi + 0.10 K+ K- pi+ pi- PHSP; + 0.10 pi+ pi- pi+ pi- PHSP; + 0.10 p+ anti-p- pi+ pi- PHSP; + 0.10 K+ K- pi0 PHSP; + 0.10 pi+ pi- pi0 PHSP; + 0.05 K+ MyK_S0 pi- PHSP; + 0.05 K- MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK_S0 + 1.00 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_chic0Kp_2K.dec b/BaBar_2014/Bp_chic0Kp_2K.dec new file mode 100644 index 0000000..862dcfb --- /dev/null +++ b/BaBar_2014/Bp_chic0Kp_2K.dec @@ -0,0 +1,51 @@ +############################################################ +# # +# Decay: B+ -> chi_c0 K+, B0bar -> X # +# | | # +# ->K+K- # +# + cc # +# # +# # +# # +# Author: S. Tosi 16/11/01 # +############################################################ +# +Define beta 0.59 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyChic0 chi_c0 +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyChic0 K+ PHSP; +Enddecay +# +# +Decay MyB- + 1.0000 MyChic0 K- PHSP; +Enddecay +# +# +Decay MyChic0 + 1.0000 K+ K- PHSP; +Enddecay +# +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_chic0Kp_hadrons.dec b/BaBar_2014/Bp_chic0Kp_hadrons.dec new file mode 100644 index 0000000..6676c6a --- /dev/null +++ b/BaBar_2014/Bp_chic0Kp_hadrons.dec @@ -0,0 +1,111 @@ +############################################################ +# # +# Decay: B+ -> chi_c0 K+, B- -> X # +# | # +# -> several hadronic modes # +# (allowed and not) # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyChic0 chi_c0 +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyChic0 K+ PHSP; +Enddecay +# +# +Decay MyB- + 1.0000 MyChic0 K- PHSP; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyChic0 + 1.0000 rho0 rho0 PHSP; + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 pi+ pi- pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 0.5000 Myanti-K*0 K+ pi- PHSP; + 0.5000 MyK*0 K- pi+ PHSP; + 1.0000 pi+ pi- K+ K- PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 K+ MyK_S0 pi- PHSP; + 0.5000 K- MyK_S0 pi+ PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 1.0000 pi0 K+ K- PHSP; + 1.0000 K+ K- K+ K- PHSP; + 1.0000 p+ anti-p- PHSP; + 1.0000 Myeta pi+ pi- PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_chic1Kp_hadrons.dec b/BaBar_2014/Bp_chic1Kp_hadrons.dec new file mode 100644 index 0000000..086a6d3 --- /dev/null +++ b/BaBar_2014/Bp_chic1Kp_hadrons.dec @@ -0,0 +1,111 @@ +############################################################ +# # +# Decay: B+ -> chi_c1 K+, B- -> X # +# | # +# -> several hadronic modes # +# (allowed and not) # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyChic1 chi_c1 +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyChic1 K+ SVS; +Enddecay +# +# +Decay MyB- + 1.0000 MyChic1 K- SVS; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyChic1 + 1.0000 rho0 rho0 PHSP; + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 pi+ pi- pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 0.5000 Myanti-K*0 K+ pi- PHSP; + 0.5000 MyK*0 K- pi+ PHSP; + 1.0000 pi+ pi- K+ K- PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 K+ MyK_S0 pi- PHSP; + 0.5000 K- MyK_S0 pi+ PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 1.0000 pi0 K+ K- PHSP; + 1.0000 K+ K- K+ K- PHSP; + 1.0000 p+ anti-p- PHSP; + 1.0000 Myeta pi+ pi- PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_chic2Kp_hadrons.dec b/BaBar_2014/Bp_chic2Kp_hadrons.dec new file mode 100644 index 0000000..ea632d5 --- /dev/null +++ b/BaBar_2014/Bp_chic2Kp_hadrons.dec @@ -0,0 +1,110 @@ +############################################################ +# # +# Decay: B+ -> chi_c2 K+, B- -> X # +# | # +# -> several hadronic modes # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyChic2 chi_c2 +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyChic2 K+ STS; +Enddecay +# +# +Decay MyB- + 1.0000 MyChic2 K- STS; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyChic2 + 1.0000 rho0 rho0 PHSP; + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 pi+ pi- pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 0.5000 Myanti-K*0 K+ pi- PHSP; + 0.5000 MyK*0 K- pi+ PHSP; + 1.0000 pi+ pi- K+ K- PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 K+ MyK_S0 pi- PHSP; + 0.5000 K- MyK_S0 pi+ PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 1.0000 pi0 K+ K- PHSP; + 1.0000 K+ K- K+ K- PHSP; + 1.0000 p+ anti-p- PHSP; + 1.0000 Myeta pi+ pi- PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_etac2SKp_hadrons.dec b/BaBar_2014/Bp_etac2SKp_hadrons.dec new file mode 100644 index 0000000..dc56cb7 --- /dev/null +++ b/BaBar_2014/Bp_etac2SKp_hadrons.dec @@ -0,0 +1,111 @@ +############################################################ +# # +# Decay: B+ -> eta_c(2S) K+, B- -> X # +# | # +# -> several hadronic modes # +# (allowed and not) # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyEta_c2S eta_c(2S) +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyEta_c2S K+ PHSP; +Enddecay +# +# +Decay MyB- + 1.0000 MyEta_c2S K- PHSP; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyEta_c2S + 1.0000 rho0 rho0 PHSP; + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 pi+ pi- pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 0.5000 Myanti-K*0 K+ pi- PHSP; + 0.5000 MyK*0 K- pi+ PHSP; + 1.0000 pi+ pi- K+ K- PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 K+ MyK_S0 pi- PHSP; + 0.5000 K- MyK_S0 pi+ PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 1.0000 pi0 K+ K- PHSP; + 1.0000 K+ K- K+ K- PHSP; + 1.0000 p+ anti-p- PHSP; + 1.0000 Myeta pi+ pi- PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_etacKp_hadrons.dec b/BaBar_2014/Bp_etacKp_hadrons.dec new file mode 100644 index 0000000..920a687 --- /dev/null +++ b/BaBar_2014/Bp_etacKp_hadrons.dec @@ -0,0 +1,101 @@ +############################################################ +# # +# Decay: B+ -> eta_c K+, B- -> X # +# | # +# -> several hadronic modes # +# (allowed and not) # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyEta_c eta_c +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyEta_c K+ PHSP; +Enddecay +# +# +Decay MyB- + 1.0000 MyEta_c K- PHSP; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyEta_c + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 1.0000 pi0 p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_hcKp_3had.dec b/BaBar_2014/Bp_hcKp_3had.dec new file mode 100644 index 0000000..917a293 --- /dev/null +++ b/BaBar_2014/Bp_hcKp_3had.dec @@ -0,0 +1,49 @@ +############################################################ +# # +# Decay: B+ -> h_c K+, B- -> X # +# | # +# ->3 mesons # +# + cc # +# # +# Author: S. Tosi 18/06/01 # +############################################################ +# +Define beta 0.34 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +Alias MyH_c h_c +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ + 1.000 MyH_c K+ SVS; +Enddecay +# +Decay MyB- + 1.000 MyH_c K- SVS; +Enddecay +# +Decay MyH_c + 0.25 MyK_S0 K+ pi- PHSP; + 0.25 MyK_S0 K- pi+ PHSP; + 0.5 K+ K- pi0 PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +End + + + + + + + + + diff --git a/BaBar_2014/Bp_hcKp_4had.dec b/BaBar_2014/Bp_hcKp_4had.dec new file mode 100644 index 0000000..f8c1316 --- /dev/null +++ b/BaBar_2014/Bp_hcKp_4had.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B+ -> h_c K+, B- -> X # +# | # +# ->4 mesons # +# # +# + cc # +# # +# Author: S. Tosi 18/06/01 # +############################################################ +# +Define beta 0.34 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyH_c h_c +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ + 1.000 MyH_c K+ SVS; +Enddecay +# +Decay MyB- + 1.000 MyH_c K- SVS; +Enddecay +# +Decay MyH_c + 0.33333 pi+ pi- K+ K- PHSP; + 0.33333 K+ K- K+ K- PHSP; + 0.33333 pi+ pi- pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_hcKp_JpsiX.dec b/BaBar_2014/Bp_hcKp_JpsiX.dec new file mode 100644 index 0000000..b92dcb2 --- /dev/null +++ b/BaBar_2014/Bp_hcKp_JpsiX.dec @@ -0,0 +1,46 @@ +############################################################ +# # +# Decay: B+ -> h_c K+, B- -> X # +# | # +# J/psi X # +# |-> e+e- # +# |-> mu+mu- # +# # +# + cc # +# # +# Author: E. Robutti # +# Created: May 31 2001 # +############################################################ +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJ/psi J/psi +Alias MyH_c h_c +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.000 MyH_c K+ SVS; +Enddecay +# +Decay MyB- + 1.000 MyH_c K- SVS; +Enddecay +# +# +Decay MyH_c + 0.5000 MyJ/psi pi+ pi- PHSP; + 0.5000 MyJ/psi pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay MyJ/psi + 0.5000 e+ e- PHOTOS VLL; + 0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/Bp_hcKp_etacGam_X.dec b/BaBar_2014/Bp_hcKp_etacGam_X.dec new file mode 100644 index 0000000..4938e87 --- /dev/null +++ b/BaBar_2014/Bp_hcKp_etacGam_X.dec @@ -0,0 +1,67 @@ +############################################################ +# # +# Decay: B+ -> h_c K+, B- -> X # +# | # +# ->eta_c gamma # +# | # +# -> X # +# + cc # +# # +# Author: S. Tosi 18/06/01 # +############################################################ +# +Define beta 0.34 +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_S0 K_S0 +Alias MyEta_c eta_c +Alias MyH_c h_c +Alias MyPhi phi +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ + 1.000 MyH_c K+ SVS; +Enddecay +# +Decay MyB- + 1.000 MyH_c K- SVS; +Enddecay +# +Decay MyH_c + 1.0000 MyEta_c gamma VSP_PWAVE; +Enddecay +# +Decay MyEta_c +0.1 p+ anti-p- PHSP; +0.1 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +0.1 pi+ pi- pi+ pi- PHSP; +0.1 K+ K- K+ K- PHSP; +0.1 K+ K- pi+ pi- PHSP; +0.1 pi0 K+ K- PHSP; +0.05 K+ MyK_S0 pi- PHSP; +0.05 K- MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_hcKp_hadrons.dec b/BaBar_2014/Bp_hcKp_hadrons.dec new file mode 100644 index 0000000..afa6ecf --- /dev/null +++ b/BaBar_2014/Bp_hcKp_hadrons.dec @@ -0,0 +1,111 @@ +############################################################ +# # +# Decay: B+ -> h_c K+, B- -> X # +# | # +# -> several hadronic modes # +# (allowed and not) # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyH_c h_c +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyH_c K+ SVS; +Enddecay +# +# +Decay MyB- + 1.0000 MyH_c K- SVS; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyH_c + 1.0000 rho0 rho0 PHSP; + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 pi+ pi- pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 0.5000 Myanti-K*0 K+ pi- PHSP; + 0.5000 MyK*0 K- pi+ PHSP; + 1.0000 pi+ pi- K+ K- PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 K+ MyK_S0 pi- PHSP; + 0.5000 K- MyK_S0 pi+ PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 1.0000 pi0 K+ K- PHSP; + 1.0000 K+ K- K+ K- PHSP; + 1.0000 p+ anti-p- PHSP; + 1.0000 Myeta pi+ pi- PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_ppbarpipiK.dec b/BaBar_2014/Bp_ppbarpipiK.dec new file mode 100644 index 0000000..1fe5fea --- /dev/null +++ b/BaBar_2014/Bp_ppbarpipiK.dec @@ -0,0 +1,43 @@ +############################################################ +# # +# Decay: B+ -> p pbar pi+ pi- K+, B- -> X # +# # +# # +# + cc # +# # +# # +# # +# Author: S. Tosi 17/06/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 pi+ pi- p+ anti-p- K+ PHSP; +Enddecay +# +# +Decay MyB- + 1.0000 pi+ pi- p+ anti-p- K- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/Bp_psi2SKp_hadrons.dec b/BaBar_2014/Bp_psi2SKp_hadrons.dec new file mode 100644 index 0000000..5c9cd41 --- /dev/null +++ b/BaBar_2014/Bp_psi2SKp_hadrons.dec @@ -0,0 +1,111 @@ +############################################################ +# # +# Decay: B+ -> psi(2S) K+, B- -> X # +# | # +# -> several hadronic modes # +# (allowed and not) # +# + cc # +# # +# # +# # +# Author: S. Tosi 10/01/03 # +############################################################ +# +Define beta 0.75 +# +Alias MyB+ B+ +Alias MyB- B- +# +# +Alias MyK_S0 K_S0 +Alias Myeta eta +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK*+ K*+ +Alias MyK*- K*- +# +Alias MyPsi2S psi(2S) +# +Decay Upsilon(4S) + 0.5000 MyB+ B- VSS; + 0.5000 MyB- B+ VSS; +Enddecay +# +# +Decay MyB+ + 1.0000 MyPsi2S K+ SVS; +Enddecay +# +# +Decay MyB- + 1.0000 MyPsi2S K- SVS; +Enddecay +# +# Intentionally same branching fractions and PHSP +# for all the modes +# +Decay MyPsi2S + 1.0000 rho0 rho0 PHSP; + 1.0000 rho0 pi+ pi- PHSP; + 1.0000 pi+ pi- pi+ pi- PHSP; + 1.0000 MyK*0 Myanti-K*0 PHSP; + 0.5000 Myanti-K*0 K+ pi- PHSP; + 0.5000 MyK*0 K- pi+ PHSP; + 1.0000 pi+ pi- K+ K- PHSP; + 1.0000 pi+ pi- p+ anti-p- PHSP; + 0.5000 MyK*0 MyK_S0 PHSP; + 0.5000 Myanti-K*0 MyK_S0 PHSP; + 0.5000 K+ MyK_S0 pi- PHSP; + 0.5000 K- MyK_S0 pi+ PHSP; + 0.5000 MyK*+ K- PHSP; + 0.5000 MyK*- K+ PHSP; + 1.0000 pi0 K+ K- PHSP; + 1.0000 K+ K- K+ K- PHSP; + 1.0000 p+ anti-p- PHSP; + 1.0000 Myeta pi+ pi- PHSP; + 0.3333 rho0 pi0 PHSP; + 0.3333 rho+ pi- PHSP; + 0.3333 rho- pi+ PHSP; + 1.0000 pi0 pi- pi+ PHSP; +Enddecay +# +# +# +Decay MyK*0 + 0.6657 K+ pi- VSS; +Enddecay +# +Decay Myanti-K*0 + 0.6657 K- pi+ VSS; +Enddecay +# +Decay MyK*+ + 0.3330 MyK_S0 pi+ VSS; + 0.3330 K+ pi0 VSS; +Enddecay +# +Decay MyK*- + 0.3330 MyK_S0 pi- VSS; + 0.3330 K- pi0 VSS; +Enddecay +# +# +Decay Myeta + 0.2320 pi- pi+ pi0 ETA_DALITZ; + 0.3925 gamma gamma PHSP; +Enddecay +# +Decay MyK_S0 + 1.00000 pi+ pi- PHSP; +Enddecay +# +End + + + + + + + + + diff --git a/BaBar_2014/BptoD0pi_D0toKpi_BmtoDsKpi.dec b/BaBar_2014/BptoD0pi_D0toKpi_BmtoDsKpi.dec new file mode 100644 index 0000000..b200237 --- /dev/null +++ b/BaBar_2014/BptoD0pi_D0toKpi_BmtoDsKpi.dec @@ -0,0 +1,277 @@ +################################################################## +# # +# Right sign D_s from ssbar popping # +# Decay: B- -> D0 pi- (D0 -> K- pi+ ) B+ ->D_s- K+ pi+; +cc # +# # +# Author: amina ZGHICHE # +# Date: 11/10/2002 # +################################################################## +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +#AZ +Alias MyB+D_s- B+ +Alias MyB-D_s+ B- +Alias MyB+D_s*- B+ +Alias MyB-D_s*+ B- +#AZ +####################################################### +# the MyDs* list +####################################################### +Alias MyD_s*- D_s*- +Alias MyD_s*+ D_s*+ +Alias MyD_s- D_s- +Alias MyD_s+ D_s+ +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +Alias MyK_s0 K_S0 +Alias MyK_s0B K_S0 +#AZ +Alias Myphi phi +Alias MyK0 K0 +Alias MyK0B anti-K0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +#AZ +ChargeConj MyB+D_s- MyB-D_s+ +ChargeConj MyB+D_s*- MyB-D_s*+ +#AZ +ChargeConj MyD_s*- MyD_s*+ +ChargeConj MyD_s- MyD_s+ +ChargeConj MyK0 MyK0B +ChargeConj MyK_s0 MyK_s0B +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +#AZ +Decay Upsilon(4S) +0.500 MyB- MyB+D_s- VSS; +0.500 MyB- MyB+D_s*- VSS; +Enddecay +# +Decay MyB- +1.000 MyD0kpi pi- PHSP; +Enddecay +CDecay MyB+ +# +Decay MyB+D_s- +1.000 MyD_s- K+ pi+ PHSP; +Enddecay +CDecay MyB-D_s+ +# +# +Decay MyB+D_s*- +1.000 MyD_s*- K+ pi+ PHSP; +Enddecay +CDecay MyB-D_s+ +# +Decay MyD_s*- +0.9420 MyD_s- gamma VSP_PWAVE; + +Enddecay +CDecay MyD_s*+ +# +Decay MyD_s- +0.343 MyK_s0 K- PHSP; +0.343 Myphi pi- SVS; +0.314 MyK*0 K- SVS; +Enddecay +CDecay MyD_s+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +# +#Decay MyK0 +#1.0000 pi+ pi- PHSP; +#Enddecay +#CDecay MyK0B +# +Decay MyK_s0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +#fin AZ +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/BptoD0pi_D0toKpi_BmtoLambdaCppi.dec b/BaBar_2014/BptoD0pi_D0toKpi_BmtoLambdaCppi.dec new file mode 100644 index 0000000..b5aba92 --- /dev/null +++ b/BaBar_2014/BptoD0pi_D0toKpi_BmtoLambdaCppi.dec @@ -0,0 +1,211 @@ +####################################################### +# # +# Decay: B0 -> D*-D*+K0s anti-B0->X # +# D*+- ->D0pi+, D*-->D0pi- # +# D0 -> K3pi # +# D0bar -> K3pi # +# Author: Jean-Pierre Lees # +# Created: 18/April/2001 # +####################################################### +# The MyB list +####################################################### +Alias MyB0 B0 +Alias MyB0B anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyB+Lambda B+ +Alias MyB-Lambda B- +####################################################### +# the MyD* list +####################################################### +Alias MyD*0 D*0 +Alias MyD*0kpi D*0 +Alias MyD*0k3pi D*0 +Alias MyD*0kpipi0 D*0 +Alias MyD*0B anti-D*0 +Alias MyD*0Bkpi anti-D*0 +Alias MyD*0Bk3pi anti-D*0 +Alias MyD*0Bkpipi0 anti-D*0 +Alias MyD*+ D*+ +Alias MyD*+kpi D*+ +Alias MyD*+k2pi D*+ +Alias MyD*+k3pi D*+ +Alias MyD*+kpipi0 D*+ +Alias MyD*- D*- +Alias MyD*-kpi D*- +Alias MyD*-k2pi D*- +Alias MyD*-k3pi D*- +Alias MyD*-kpipi0 D*- +####################################################### +# the MyD list +####################################################### +Alias MyD0 D0 +Alias MyD0kpi D0 +Alias MyD0k3pi D0 +Alias MyD0kpipi0 D0 +Alias MyD0B anti-D0 +Alias MyD0Bkpi anti-D0 +Alias MyD0Bk3pi anti-D0 +Alias MyD0Bkpipi0 anti-D0 +Alias MyD+ D+ +Alias MyD- D- +################################################################### +# the light resonnances from D0 to k3pi decays now (a1,K*0,K1) +################################################################### +Alias Mya_1- a_1- +Alias Mya_1+ a_1+ +Alias MyK*0 K*0 +Alias MyK*0B anti-K*0 +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias myKs K_S0 +################################################################### +# The anti particles +################################################################### +ChargeConj MyB+ MyB- +ChargeConj MyB0 MyB0B +ChargeConj MyB+Lambda MyB-Lambda +# +ChargeConj MyD*0 MyD*0B +ChargeConj MyD*0kpi MyD*0Bkpi +ChargeConj MyD*0k3pi MyD*0Bk3pi +ChargeConj MyD*0kpipi0 MyD*0Bkpipi0 +ChargeConj MyD*+ MyD*- +ChargeConj MyD*+kpi MyD*-kpi +ChargeConj MyD*+k2pi MyD*-k2pi +ChargeConj MyD*+k3pi MyD*-k3pi +ChargeConj MyD*+kpipi0 MyD*-kpipi0 +# +ChargeConj MyD0 MyD0B +ChargeConj MyD0kpi MyD0Bkpi +ChargeConj MyD0k3pi MyD0Bk3pi +ChargeConj MyD0kpipi0 MyD0Bkpipi0 +ChargeConj MyD+ MyD- +# +ChargeConj MyK*0 MyK*0B +ChargeConj Mya_1+ Mya_1- +ChargeConj MyK_1+ MyK_1- +################################################################### +#Branching Fractions now +################################################################### +Decay Upsilon(4S) +1.000 MyB+ MyB-Lambda VSS; +Enddecay +# +Decay MyB+ +1.000 MyD0Bkpi pi+ PHSP; +Enddecay +CDecay MyB- +# +Decay MyB+Lambda +0.00062 anti-Lambda_c- p+ pi+ PHSP; +Enddecay +CDecay MyB-Lambda +# +Decay MyD*- +0.6830 MyD0B pi- VSS; +Enddecay +CDecay MyD*+ +# +Decay MyD*-kpi +0.6830 MyD0Bkpi pi- VSS; +Enddecay +CDecay MyD*+kpi +# +Decay MyD*-k2pi +0.3170 MyD- pi0 VSS; +Enddecay +CDecay MyD*+k2pi +# +Decay MyD*-k3pi +0.6830 MyD0Bk3pi pi- VSS; +Enddecay +CDecay MyD*+k3pi +# +Decay MyD*-kpipi0 +0.6830 MyD0Bkpipi0 pi- VSS; +Enddecay +CDecay MyD*+kpipi0 +# +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0B +# +Decay MyD*0k3pi +0.6190 MyD0k3pi pi0 VSS; +0.3810 MyD0k3pi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bk3pi +# +Decay MyD*0kpi +0.6190 MyD0kpi pi0 VSS; +0.3810 MyD0kpi gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpi +# +Decay MyD*0kpipi0 +0.6190 MyD0kpipi0 pi0 VSS; +0.3810 MyD0kpipi0 gamma VSP_PWAVE; +Enddecay +CDecay MyD*0Bkpipi0 +# +Decay MyD- +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +CDecay MyD+ +# +Decay MyD0 +0.0391 K- pi+ PHSP; +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0B +# +Decay MyD0kpi +0.0391 K- pi+ PHSP; +Enddecay +CDecay MyD0Bkpi +# +Decay MyD0kpipi0 +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +CDecay MyD0Bkpipi0 +# +Decay MyD0k3pi +0.0355 Mya_1+ K- SVS; +0.0097 MyK*0B rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0021 MyK_1- pi+ SVS; +0.0105 MyK*0B pi+ pi- PHSP; +0.0054 K- pi+ rho0 PHSP; +0.0129 K- pi+ pi+ pi- PHSP; +Enddecay +CDecay MyD0Bk3pi +# +Decay Mya_1- +1.0000 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay Mya_1+ +# +Decay MyK*0 +1.0000 K+ pi- VSS; +Enddecay +CDecay MyK*0B +# +Decay MyK_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 MyK*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay MyK_1- +# +Decay myKs +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJPsiK1p.dec b/BaBar_2014/BptoJPsiK1p.dec new file mode 100644 index 0000000..be4f48e --- /dev/null +++ b/BaBar_2014/BptoJPsiK1p.dec @@ -0,0 +1,58 @@ +################################################################### +# B+ --> JPsi K1(1273) B- --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) # +# # +# with K1 -> K_S0 rho+ # +# K_S0 -> pi+ pi- # +# + charge conjugate # +# # +# # +# Author: Frank Winklmeier Feb 09, 2004 # +# # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle +Alias MyB+ B+ +Alias MyB- B- +Alias MyK_1+ K_1+ +Alias MyK_1- K_1- +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB+ +1.000 MyJpsi MyK_1+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyJpsi MyK_1- PHSP; +Enddecay +# +Decay MyK_1+ +1.000 MyK_S0 rho+ PHSP; +Enddecay +# +Decay MyK_1- +1.000 MyK_S0 rho- PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKmpip.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKmpip.dec new file mode 100644 index 0000000..354527d --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKmpip.dec @@ -0,0 +1,63 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->K*0 Ks # +# | # +# | # +# +--> K- pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKppim.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKppim.dec new file mode 100644 index 0000000..32922f1 --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKppim.dec @@ -0,0 +1,63 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->K*0 Ks # +# | # +# | # +# +--> K+ pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec new file mode 100644 index 0000000..5a2402a --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstar0Ks0_Kstar0toKs0pi0.dec @@ -0,0 +1,63 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->K*0 Ks # +# | # +# | # +# +--> K_S0 pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstarK.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstarK.dec new file mode 100644 index 0000000..5697d51 --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstarK.dec @@ -0,0 +1,91 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# 30% +-->K*+ K- # +# | | # +# | +--> K+ pi0 (50%) # +# | +--> K_S0 pi+ (50%) # +# | | # +# | +--> pi+ pi- # +# | # +# 30% +-->K*- K+ # +# | | # +# | +--> K- pi0 (50%) # +# | +--> K_S0 pi- (50%) # +# | | # +# | +--> pi+ pi- # +# | # +# 40% +-->K*0 K_S0 # +# | | # +# | +--> pi+ pi- # +# | # +# +--> K+ pi- (30%) # +# +--> K- pi+ (30%) # +# +--> K_S0 pi0 (40%) # +# | # +# +--> pi+ pi- # +# # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyJpsi K- PHSP; +Enddecay +# +Decay MyJpsi +0.300 MyK*+ K- PHSP; +0.300 MyK*- K+ PHSP; +0.400 MyK*0 MyK_S0 PHSP; +Enddecay +# +Decay MyK*+ +0.500 K+ pi0 PHSP; +0.500 MyK_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +0.500 K- pi0 PHSP; +0.500 MyK_S0 pi- PHSP; +Enddecay +# +Decay MyK*0 +0.400 MyK_S0 pi0 PHSP; +0.300 K+ pi- PHSP; +0.300 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstarmKp_KstarmtoKmpi0.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstarmKp_KstarmtoKmpi0.dec new file mode 100644 index 0000000..c569cbe --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstarmKp_KstarmtoKmpi0.dec @@ -0,0 +1,61 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K- pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstarmKp_KstarmtoKs0pim.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstarmKp_KstarmtoKs0pim.dec new file mode 100644 index 0000000..6f8b37e --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstarmKp_KstarmtoKs0pim.dec @@ -0,0 +1,62 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K_S0 pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstarpKm_KstarptoKppi0.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstarpKm_KstarptoKppi0.dec new file mode 100644 index 0000000..30ffec1 --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstarpKm_KstarptoKppi0.dec @@ -0,0 +1,61 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K+ pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoKstarpKm_KstarptoKs0pip.dec b/BaBar_2014/BptoJpsiKp_JpsitoKstarpKm_KstarptoKs0pip.dec new file mode 100644 index 0000000..a750bc9 --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoKstarpKm_KstarptoKs0pip.dec @@ -0,0 +1,62 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K_S0 pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoRho0pi0.dec b/BaBar_2014/BptoJpsiKp_JpsitoRho0pi0.dec new file mode 100644 index 0000000..b892538 --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoRho0pi0.dec @@ -0,0 +1,50 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->rho0 pi0 # +# | # +# | # +# +--> pi+ pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoRhoPi.dec b/BaBar_2014/BptoJpsiKp_JpsitoRhoPi.dec new file mode 100644 index 0000000..8f74f7c --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoRhoPi.dec @@ -0,0 +1,50 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->rho0 pi0 # +# | | # +# | | # +# | +--> pi+ pi- # +# | # +# +-->rho+ pi- # +# +-->rho- pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +0.328 rho0 pi0 PHSP; +0.336 rho+ pi- PHSP; +0.336 rho- pi+ PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyJpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoRhompip.dec b/BaBar_2014/BptoJpsiKp_JpsitoRhompip.dec new file mode 100644 index 0000000..f6d31ea --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoRhompip.dec @@ -0,0 +1,50 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->rho- pi+ # +# | # +# | # +# +--> pi- pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 rho- pi+ PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 rho+ pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoJpsiKp_JpsitoRhoppim.dec b/BaBar_2014/BptoJpsiKp_JpsitoRhoppim.dec new file mode 100644 index 0000000..5d233ee --- /dev/null +++ b/BaBar_2014/BptoJpsiKp_JpsitoRhoppim.dec @@ -0,0 +1,50 @@ +################################################################### +# B+ --> J/psi K+ B+ --> Generic # +# | # +# | # +# +-->rho+ pi- # +# | # +# | # +# +--> pi+ pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +# +Alias MyB+ B+ +Alias MyB- B- +Alias MyJpsi J/psi +Alias Myanti-Jpsi J/psi +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyJpsi +1.000 rho+ pi- PHSP; +Enddecay +# +Decay Myanti-Jpsi +1.000 rho- pi+ PHSP; +Enddecay +# +Decay MyB+ +1.000 MyJpsi K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-Jpsi K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoJpsiPi0Pi0.dec b/BaBar_2014/BptoXKp_XtoJpsiPi0Pi0.dec new file mode 100644 index 0000000..09eff2b --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoJpsiPi0Pi0.dec @@ -0,0 +1,48 @@ +################################################################### +# B+ --> X3872 K+ B- --> Generic # +# | # +# | # +# |-->jpsi(ee,mumu) pi0 pi0 # +# # +# # +# + charge conjugate # +# # +# # +# Author: Frank Winklmeier, 23 Feb 2004 # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle + +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyJpsi pi0 pi0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoJpsiRho0.dec b/BaBar_2014/BptoXKp_XtoJpsiRho0.dec new file mode 100644 index 0000000..1011460 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoJpsiRho0.dec @@ -0,0 +1,50 @@ +################################################################### +# B+ --> X3872 K+ B- --> Generic # +# | # +# | # +# |-->jpsi(ee,mumu) rho # +# | # +# |--> pi+ pi- # +# # +# # +# + charge conjugate # +# # +# # +# Author: Frank Winklmeier, 23 Feb 2004 # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle + +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyJpsi rho0 PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoJpsiRho0_Rho0toPi0Pi0.dec b/BaBar_2014/BptoXKp_XtoJpsiRho0_Rho0toPi0Pi0.dec new file mode 100644 index 0000000..6566050 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoJpsiRho0_Rho0toPi0Pi0.dec @@ -0,0 +1,52 @@ +################################################################### +# B- --> X3872 K- B0 --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) rho=> pi0pi0, NOTE this is forbidden # +# # +# + charge conjugate # +# # +# # +# Author: Walter Toki Feb. 23, 2004 # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle +Particle dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myrho rho0 +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay Myrho +1.000 pi0 pi0 PHSP; +Enddecay +# +Decay MyX +1.000 MyJpsi Myrho PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 MyX K- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKmpip.dec b/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKmpip.dec new file mode 100644 index 0000000..77a88cf --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKmpip.dec @@ -0,0 +1,64 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->K*0 Ks # +# | # +# | # +# +--> K- pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 11, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKppim.dec b/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKppim.dec new file mode 100644 index 0000000..3e06d14 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKppim.dec @@ -0,0 +1,65 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->K*0 Ks # +# | # +# | # +# +--> K+ pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias Myanti-K*0 K*0 +Alias MyK_S0 K_S0 +Alias Myanti-K_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 Myanti-K*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay Myanti-K*0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKs0pi0.dec b/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKs0pi0.dec new file mode 100644 index 0000000..4a3e4c6 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoKstar0Ks0_Kstar0toKs0pi0.dec @@ -0,0 +1,59 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->K*0 Ks # +# | # +# | # +# +--> K_S0 pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*0 K_S0 PHSP; +Enddecay +# +Decay MyK*0 +1.000 K_S0 pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoKstarmKp_KstarmtoKmpi0.dec b/BaBar_2014/BptoXKp_XtoKstarmKp_KstarmtoKmpi0.dec new file mode 100644 index 0000000..7a364a9 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoKstarmKp_KstarmtoKmpi0.dec @@ -0,0 +1,62 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K- pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoKstarmKp_KstarmtoKs0pim.dec b/BaBar_2014/BptoXKp_XtoKstarmKp_KstarmtoKs0pim.dec new file mode 100644 index 0000000..1a2169c --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoKstarmKp_KstarmtoKs0pim.dec @@ -0,0 +1,63 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->K*- K+ # +# | # +# | # +# +--> K_S0 pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoKstarpKm_KstarptoKppi0.dec b/BaBar_2014/BptoXKp_XtoKstarpKm_KstarptoKppi0.dec new file mode 100644 index 0000000..87efc5b --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoKstarpKm_KstarptoKppi0.dec @@ -0,0 +1,62 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K+ pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K+ pi0 PHSP; +Enddecay +# +Decay MyK*- +1.000 K- pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoKstarpKm_KstarptoKs0pip.dec b/BaBar_2014/BptoXKp_XtoKstarpKm_KstarptoKs0pip.dec new file mode 100644 index 0000000..16c18dd --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoKstarpKm_KstarptoKs0pip.dec @@ -0,0 +1,63 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->K*+ K- # +# | # +# | # +# +--> K_S0 pi+ # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +Alias MyK*+ K*+ +Alias MyK*- K*- +Alias MyK*0 K*0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 MyK*+ K- PHSP; +Enddecay +# +Decay Myanti-X +1.000 MyK*- K+ PHSP; +Enddecay +# +Decay MyK*+ +1.000 K_S0 pi+ PHSP; +Enddecay +# +Decay MyK*- +1.000 K_S0 pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoRho0pi0.dec b/BaBar_2014/BptoXKp_XtoRho0pi0.dec new file mode 100644 index 0000000..45d7d61 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoRho0pi0.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->rho0 pi0 # +# | # +# | # +# +--> pi+ pi- # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay Myanti-X +1.000 rho0 pi0 PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoRhompip.dec b/BaBar_2014/BptoXKp_XtoRhompip.dec new file mode 100644 index 0000000..921a499 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoRhompip.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->rho- pi+ # +# | # +# | # +# +--> pi- pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 rho- pi+ PHSP; +Enddecay +# +Decay Myanti-X +1.000 rho+ pi- PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXKp_XtoRhoppim.dec b/BaBar_2014/BptoXKp_XtoRhoppim.dec new file mode 100644 index 0000000..cd71f52 --- /dev/null +++ b/BaBar_2014/BptoXKp_XtoRhoppim.dec @@ -0,0 +1,51 @@ +################################################################### +# B+ --> x3872 K+ B+ --> Generic # +# | # +# | # +# +-->rho+ pi- # +# | # +# | # +# +--> pi+ pi0 # +# # +# + cc # +# # +# mode a5: CLEO values # +# # +# Author: Walter Toki October 27, 2003 # +# Modified by Aidong Chen Nov. 10, 2003 # +################################################################### +# +# Define dm 0.464e12 +# +# +# Alias particles for specific decays +# +Particle dummy00_1 3.872 0.0 +Particle anti-dummy00_1 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX dummy00_1 +Alias Myanti-X anti-dummy00_1 +# +Decay Upsilon(4S) +0.5000 MyB+ B- VSS; +0.5000 MyB- B+ VSS; +Enddecay +# +Decay MyX +1.000 rho+ pi- PHSP; +Enddecay +# +Decay Myanti-X +1.000 rho- pi+ PHSP; +Enddecay +# +Decay MyB+ +1.000 MyX K+ PHSP; +Enddecay +# +Decay MyB- +1.000 Myanti-X K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BptoXpKs0_XptoJpsiRhop.dec b/BaBar_2014/BptoXpKs0_XptoJpsiRhop.dec new file mode 100644 index 0000000..cad376c --- /dev/null +++ b/BaBar_2014/BptoXpKs0_XptoJpsiRhop.dec @@ -0,0 +1,60 @@ +################################################################### +# B+ --> X3872 Ks B+ --> Generic xx # +# | # +# | # +# |-->jpsi(ee,mumu) rho+ # +# # +# with Ks -> pi+ pi- # +# + charge conjugate # +# # +# # +# Author: Frank Winklmeier Nov 19, 2003 # +# apdapted from neutral mode (Walter Toki Sept 8, 2003) # +################################################################### +# +#Define dm 0.464e12 +# +# +# Alias particles for specific decays +# Particle +Particle B_c+ 3.872 0.0 +Particle B_c- 3.872 0.0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyX+ B_c+ +Alias MyX- B_c- +Alias MyJpsi J/psi +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +0.500 MyB+ B- VSS; +0.500 MyB- B+ VSS; +Enddecay +# +Decay MyX+ +1.000 MyJpsi rho+ PHSP; +Enddecay +# +Decay MyX- +1.000 MyJpsi rho- PHSP; +Enddecay +# +Decay MyJpsi +0.500 e+ e- PHOTOS VLL; +0.500 mu+ mu- VLL; +Enddecay +# +Decay MyB+ +1.000 MyX+ MyK_S0 PHSP; +Enddecay +# +Decay MyB- +1.000 MyX- MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.000 pi+ pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/Bptopsi3770Kp.dec b/BaBar_2014/Bptopsi3770Kp.dec new file mode 100644 index 0000000..a10f103 --- /dev/null +++ b/BaBar_2014/Bptopsi3770Kp.dec @@ -0,0 +1,39 @@ +####################################################### +# # +# Decay: B+->PSI(3370) K+ , B-->X # +# +cc | # +# | # +# D0D0bar # +# | | # +# | k-pi+ # +# k+pi- # +# Author: Prafulla Kumar Behera # +# Created: 23/September/02 # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyD0 D0 +Alias MyAnti-D0 anti-D0 +# +Decay Upsilon(4S) +1.000 MyB+ MyB- VSS; +Enddecay +# +Decay MyB+ +1.000 psi(3770) K+ SVS; +Enddecay +# +Decay psi(3770) +1.000 MyD0 MyAnti-D0 VSS; +Enddecay +# +Decay MyD0 +0.0391 K- pi+ PHSP; +Enddecay +# +Decay MyAnti-D0 +0.0391 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/BtoEtaPK0_1430.dec b/BaBar_2014/BtoEtaPK0_1430.dec new file mode 100755 index 0000000..5a1f398 --- /dev/null +++ b/BaBar_2014/BtoEtaPK0_1430.dec @@ -0,0 +1,58 @@ +# +# Author: Adlene Hicheur (LAPP), Date: Dec,2002 + +# resonant B->eta' K0(1430) penguin decay + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B +1. anti-K_0*0 Myetap PHSP; +Enddecay + +Decay MyB0 +1. K_0*0 Myetap PHSP; +Enddecay + +Decay MyBminus +1. K_0*- Myetap PHSP; +Enddecay + +Decay MyBplus +1. K_0*+ Myetap PHSP; +Enddecay + + +Decay Myetap + +1. pi+ pi- Myeta PHSP; + +Enddecay + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BtoEtaPK1_1273.dec b/BaBar_2014/BtoEtaPK1_1273.dec new file mode 100644 index 0000000..47d4154 --- /dev/null +++ b/BaBar_2014/BtoEtaPK1_1273.dec @@ -0,0 +1,58 @@ +# +# Author: Adlene Hicheur (LAPP), Date: Nov,2001 + +# resonant B->eta' K1(1273) penguin decay + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B +0.1 anti-K_10 Myetap SVS; +Enddecay + +Decay MyB0 +0.1 K_10 Myetap SVS; +Enddecay + +Decay MyBminus +0.1 K_1- Myetap SVS; +Enddecay + +Decay MyBplus +0.1 K_1+ Myetap SVS; +Enddecay + + +Decay Myetap + +1. pi+ pi- Myeta PHSP; + +Enddecay + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BtoEtaPK1_1402.dec b/BaBar_2014/BtoEtaPK1_1402.dec new file mode 100644 index 0000000..07a9a7c --- /dev/null +++ b/BaBar_2014/BtoEtaPK1_1402.dec @@ -0,0 +1,58 @@ +# +# Author: Adlene Hicheur (LAPP), Date: Nov,2001 + +# resonant B->eta' K1(1402) penguin decay + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B +0.1 anti-K'_10 Myetap SVS; +Enddecay + +Decay MyB0 +0.1 K'_10 Myetap SVS; +Enddecay + +Decay MyBminus +0.1 K'_1- Myetap SVS; +Enddecay + +Decay MyBplus +0.1 K'_1+ Myetap SVS; +Enddecay + + +Decay Myetap + +1. pi+ pi- Myeta PHSP; + +Enddecay + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BtoEtaPK2_1430.dec b/BaBar_2014/BtoEtaPK2_1430.dec new file mode 100644 index 0000000..32aa4f6 --- /dev/null +++ b/BaBar_2014/BtoEtaPK2_1430.dec @@ -0,0 +1,60 @@ +# +# Author: Adlene Hicheur (LAPP), Date: Nov,2001 + +# resonant B->eta' K2*(1430) penguin decay + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B +0.15 anti-K_2*0 Myetap PHSP; +Enddecay + +Decay MyB0 +0.1 K_2*0 Myetap PHSP; +Enddecay + +Decay MyBminus +0.1 K_2*- Myetap PHSP; +Enddecay + +Decay MyBplus +0.1 K_2*+ Myetap PHSP; +Enddecay + + + + +Decay Myetap + +1. pi+ pi- Myeta PHSP; + +Enddecay + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BtoEtaPK3_1780.dec b/BaBar_2014/BtoEtaPK3_1780.dec new file mode 100644 index 0000000..4653c2a --- /dev/null +++ b/BaBar_2014/BtoEtaPK3_1780.dec @@ -0,0 +1,84 @@ +# +# Author: Adlene Hicheur (LAPP), Date: Nov,2001 + +# resonant B->eta' K3*(1780) penguin decay + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +Alias MyKstar3- K_3*- +Alias MyKstar3+ K_3*+ +############################################################################ +Alias MyKstar3_0 K_3*0 +Alias MyantiKstar3_0 anti-K_3*0 +############################################################################ + +ChargeConj MyKstar3- MyKstar3+ +ChargeConj MyantiKstar3_0 MyKstar3_0 + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B +0.15 MyantiKstar3_0 Myetap PHSP; +Enddecay + +Decay MyB0 +1. MyKstar3_0 Myetap PHSP; +Enddecay + +Decay MyBminus +1. MyKstar3- Myetap PHSP; +Enddecay + +Decay MyBplus +1. MyKstar3+ Myetap PHSP; +Enddecay + + +Decay MyantiKstar3_0 + +0.31 K_S0 rho0 PHSP; +0.2 K*- pi+ PHSP; +0.188 K- pi+ PHSP; + +Enddecay +CDecay MyKstar3_0 + +Decay MyKstar3- + +0.31 K- rho0 PHSP; +0.2 K*- pi0 PHSP; +0.188 K- pi0 PHSP; + +Enddecay +CDecay MyKstar3+ + +Decay Myetap + +1. pi+ pi- Myeta PHSP; + +Enddecay + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BtoEtaPK4_2045.dec b/BaBar_2014/BtoEtaPK4_2045.dec new file mode 100644 index 0000000..0ae371e --- /dev/null +++ b/BaBar_2014/BtoEtaPK4_2045.dec @@ -0,0 +1,82 @@ +# +# Author: Adlene Hicheur (LAPP), Date: Nov,2001 + +# resonant B->eta' K4*(2045) penguin decay + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +Alias MyKstar4- K_4*- +Alias MyKstar4+ K_4*+ +############################################################################ +Alias MyKstar4_0 K_4*0 +Alias MyantiKstar4_0 anti-K_4*0 +############################################################################ + +ChargeConj MyKstar4- MyKstar4+ +ChargeConj MyantiKstar4_0 MyKstar4_0 + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B +0.15 MyantiKstar4_0 Myetap PHSP; +Enddecay + +Decay MyB0 +0.1 MyKstar4_0 Myetap PHSP; +Enddecay + +Decay MyBminus +0.1 MyKstar4- Myetap PHSP; +Enddecay + +Decay MyBplus +0.1 MyKstar4+ Myetap PHSP; +Enddecay + +Decay MyantiKstar4_0 +0.099 K- pi+ PHSP; +0.09 anti-K*0 pi+ pi- PHSP; +0.07 anti-K*0 pi+ pi- pi0 PHSP; + +Enddecay +CDecay MyKstar4_0 + +Decay MyKstar4- +0.099 K- pi0 PHSP; +0.09 K*- pi+ pi- PHSP; +0.07 K*- pi+ pi- pi0 PHSP; + +Enddecay +CDecay MyKstar4+ + + +Decay Myetap + +1. pi+ pi- Myeta PHSP; + +Enddecay + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BtoEtaPKstar_1414.dec b/BaBar_2014/BtoEtaPKstar_1414.dec new file mode 100644 index 0000000..6a1f071 --- /dev/null +++ b/BaBar_2014/BtoEtaPKstar_1414.dec @@ -0,0 +1,58 @@ +# +# Author: Adlene Hicheur (LAPP), Date: Nov,2001 + +# resonant B->eta' K*(1414) penguin decay + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyBplus B+ +Alias MyBminus B- +############################################################################ + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + + +Decay Upsilon(4S) + +0.250 MyB0 anti-B0 VSS; +0.250 B0 MyB0B VSS; +0.250 MyBplus B- VSS; +0.250 B+ MyBminus VSS; + +Enddecay + +Decay MyB0B +0.1 anti-K'*0 Myetap SVS; +Enddecay + +Decay MyB0 +0.1 K'*0 Myetap SVS; +Enddecay + +Decay MyBminus +0.1 K'*- Myetap SVS; +Enddecay + +Decay MyBplus +0.1 K'*+ Myetap SVS; +Enddecay + + +Decay Myetap + +1. pi+ pi- Myeta PHSP; + +Enddecay + +Decay Myeta + +1. gamma gamma PHSP; + +Enddecay + + +End diff --git a/BaBar_2014/BtoEtapDpi.dec b/BaBar_2014/BtoEtapDpi.dec new file mode 100644 index 0000000..2c5edd0 --- /dev/null +++ b/BaBar_2014/BtoEtapDpi.dec @@ -0,0 +1,58 @@ +# +# Author: Adlene Hicheur (LAPP), Date: April,2002 + +# B-> eta'D pi decays + +############################################################################ +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyB+ B+ +Alias MyB- B- +############################################################################ +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ +Define beta 0.39 +Define dm .464e12 + + + + +Decay Upsilon(4S) +0.415 B0 MyB0B VSS_MIX dm; +0.415 MyB0 anti-B0 VSS_MIX dm; +0.085 B0 MyB0 VSS_MIX dm; +0.085 anti-B0 MyB0B VSS_MIX dm; +0.250 MyB+ B- VSS; +0.250 B+ MyB- VSS; +Enddecay + +Decay MyB0B +1. D+ pi- Myetap PHSP; +Enddecay + +Decay MyB0 +1. D- pi+ Myetap PHSP; +Enddecay + +Decay MyB- +1. D0 pi- Myetap PHSP; +Enddecay + +Decay MyB+ +1. anti-D0 pi+ Myetap PHSP; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; + +Enddecay +# + +End diff --git a/BaBar_2014/BtoXsEtap.dec b/BaBar_2014/BtoXsEtap.dec new file mode 100644 index 0000000..4bab30a --- /dev/null +++ b/BaBar_2014/BtoXsEtap.dec @@ -0,0 +1,98 @@ +# +# Author: Adlene Hicheur (LAPP), Date: January 12,2001 + +# non-resonant B->Xs,eta' penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSETAP model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s eta' decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=1.600 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.500 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=2.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into two quarks a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=1.600 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.500 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=2.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into two quarks a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + + + + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-Xsd eta' BTOXSETAP; +Enddecay + +Decay B- +1. anti-Xsu eta' BTOXSETAP; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + +End diff --git a/BaBar_2014/BtoXsEtap_nonres.dec b/BaBar_2014/BtoXsEtap_nonres.dec new file mode 100644 index 0000000..8632c8d --- /dev/null +++ b/BaBar_2014/BtoXsEtap_nonres.dec @@ -0,0 +1,104 @@ +# +# Author: Adlene Hicheur (LAPP), Date: April,2002 + +# non-resonant B->Xs,eta' penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSETAP model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s eta' decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=2.700 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.800 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=3.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into a d, an anti-s and a gluon +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 +JetSetPar KFDP(1154,3)=0 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=2.700 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.800 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=3.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into a u, an anti-s and a gluon +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 +JetSetPar KFDP(1155,3)=0 + + + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-Xsd Myetap BTOXSETAP; +Enddecay + +Decay B- +1. anti-Xsu Myetap BTOXSETAP; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; + +Enddecay +# + +End diff --git a/BaBar_2014/BtoXsEtap_sqbar.dec b/BaBar_2014/BtoXsEtap_sqbar.dec new file mode 100644 index 0000000..89f43bf --- /dev/null +++ b/BaBar_2014/BtoXsEtap_sqbar.dec @@ -0,0 +1,104 @@ +# +# Author: Adlene Hicheur (LAPP), Date: April,2002 + +# non-resonant B->Xs,eta' penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSETAP model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# + +############################################################################ +Alias Myetap eta' +Alias Myeta eta +############################################################################ + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s eta' decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=2.700 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.800 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=3.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into a d and an anti-s +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 + + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=2.700 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.800 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=3.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into a u and an anti-s +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 + + + + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +1. anti-Xsd Myetap BTOXSETAP; +Enddecay + +Decay B- +1. anti-Xsu Myetap BTOXSETAP; +Enddecay + +Decay Myetap +1. pi+ pi- Myeta PHSP; +Enddecay +# + +Decay Myeta +1. gamma gamma PHSP; + +Enddecay +# + +End diff --git a/BaBar_2014/BtoXsEtapnew.dec b/BaBar_2014/BtoXsEtapnew.dec new file mode 100644 index 0000000..dfabac6 --- /dev/null +++ b/BaBar_2014/BtoXsEtapnew.dec @@ -0,0 +1,101 @@ +# +# Author: Adlene Hicheur (LAPP), Date: January 12,2001 + +# non-resonant B->Xs,eta' penguin decays where the +# B is a B0, anti-B0, B+ or B- and the Xs is Xsd, anti-Xsd, Xsu or +# anti-Xsu, respectively. It uses the new BTOXSETAP model. +# The mode for JETSET decays is 11 which gives phase-space production +# of hadrons from the available quarks. +# + +# Reset some Jetset parameters here rather than recompiling + +# Xsd meson (sbar-d system, introduced for b->s eta' decays) +# Set Xsd 3*Charge: +JetSetPar KCHG(455,1)=0 +# Set Xsd color information: +JetSetPar KCHG(455,2)=0 +# Set Xsd particle/antiparticle distinction: +JetSetPar KCHG(455,3)=1 +# Set Xsd mass: +JetSetPar PMAS(455,1)=2.700 +# Set Xsd width (sigma): +JetSetPar PMAS(455,2)=0.800 +# Set Xsd truncation: +JetSetPar PMAS(455,3)=3.000 +# Set Xsd name: +JetSetPar CHAF(455)=Xsd +# Set Xsd so it can decay: +JetSetPar MDCY(455,1)=1 +# Set decay table entry pt for Xsd: +JetSetPar MDCY(455,2)=1154 +# Number of decay channels for Xsd: +JetSetPar MDCY(455,3)=1 +# Switch on Xsd decay +JetSetPar MDME(1154,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1154,2)=11 +# Xsd decays into a d, an anti-s and a gluon +JetSetPar KFDP(1154,1)=-3 +JetSetPar KFDP(1154,2)=1 +JetSetPar KFDP(1154,3)=0 + +# Xsu meson (sbar-u system, introduced for b->s gamma decays) +# Set Xsu 3*Charge: +JetSetPar KCHG(456,1)=3 +# Set Xsu color information: +JetSetPar KCHG(456,2)=0 +# Set Xsu particle/antiparticle distinction: +JetSetPar KCHG(456,3)=1 +# Set Xsu mass: +JetSetPar PMAS(456,1)=2.700 +# Set Xsu width (sigma): +JetSetPar PMAS(456,2)=0.800 +# Set Xsu truncation: +JetSetPar PMAS(456,3)=3.000 +# Set Xsu name: +JetSetPar CHAF(456)=Xsu +# Set Xsu so it can decay: +JetSetPar MDCY(456,1)=1 +# Set decay table entry pt for Xsu: +JetSetPar MDCY(456,2)=1155 +# Number of decay channels for Xsu: +JetSetPar MDCY(456,3)=1 +# Switch on Xsu decay +JetSetPar MDME(1155,1)=1 +# Phase space decays into hadrons from available quarks +JetSetPar MDME(1155,2)=11 +# Xsu decays into a u, an anti-s and a gluon +JetSetPar KFDP(1155,1)=-3 +JetSetPar KFDP(1155,2)=2 +JetSetPar KFDP(1155,3)=0 + + + +Decay Upsilon(4S) +0.500 B0 anti-B0 VSS; +0.500 B+ B- VSS; +Enddecay + +Decay anti-B0 +0.9 anti-Xsd eta' BTOXSETAP; +0.1 eta' s anti-d JETSET 31; +Enddecay + +Decay B- +0.9 anti-Xsu eta' BTOXSETAP; +0.1 eta' s anti-u JETSET 31; +Enddecay + +Decay eta' +1. pi+ pi- eta PHSP; +Enddecay +# + +Decay eta +1. gamma gamma PHSP; + +Enddecay +# + +End diff --git a/BaBar_2014/Chic12Inclusive.dec b/BaBar_2014/Chic12Inclusive.dec new file mode 100644 index 0000000..f3e5990 --- /dev/null +++ b/BaBar_2014/Chic12Inclusive.dec @@ -0,0 +1,37 @@ +################################################################### +# B0~ --> Generic B0 --> Generic # +# | # +# Filter a chic1 or chic 2 and ask them to decay to J/Psi Gamma # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# Y.karyotakis 18 Feb 2000 # +# Mail: KARYOTAK@SLAC.STANFORD.EDU +# # +################################################################### +# +# +Define beta 0.39 +# +Decay Upsilon(4S) +0.415 B0 anti-B0 VSS_MIX dm; +0.415 anti-B0 B0 VSS_MIX dm; +0.085 anti-B0 anti-B0 VSS_MIX dm; +0.085 B0 B0 VSS_MIX dm; +Enddecay +# +Decay chi_c1 +1.000 J/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay chi_c2 + 1.000 J/psi gamma PHSP ; +Enddecay + +Decay J/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/Chic12InclusiveBCH.dec b/BaBar_2014/Chic12InclusiveBCH.dec new file mode 100644 index 0000000..e31a051 --- /dev/null +++ b/BaBar_2014/Chic12InclusiveBCH.dec @@ -0,0 +1,35 @@ +################################################################### +# B0~ --> Generic B0 --> Generic # +# | # +# Filter a chic1 or chic 2 and ask them to decay to J/Psi Gamma # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# Y.karyotakis 18 Feb 2000 # +# Mail: KARYOTAK@SLAC.STANFORD.EDU +# # +################################################################### +# +# +Define beta 0.39 +# +Decay Upsilon(4S) +0.50000 B+ B- VSS; +0.50000 B- B+ VSS; +Enddecay +# +Decay chi_c1 +1.000 J/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay chi_c2 + 1.000 J/psi gamma PHSP ; +Enddecay + +Decay J/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/Chic12InclusiveBCH_E1.dec b/BaBar_2014/Chic12InclusiveBCH_E1.dec new file mode 100644 index 0000000..d362759 --- /dev/null +++ b/BaBar_2014/Chic12InclusiveBCH_E1.dec @@ -0,0 +1,59 @@ +################################################################### +# B- --> Generic B+ --> Generic # +# | # +# Filter a chic1 or chic 2 and ask them to decay to J/Psi Gamma # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# Y.karyotakis 18 Feb 2000 # +# Mail: KARYOTAK@SLAC.STANFORD.EDU # +# # +################################################################### +# +# +Define beta 0.39 +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +Decay Upsilon(4S) +0.50000 B+ B- VSS; +0.50000 B- B+ VSS; +Enddecay +# +Decay chi_c1 +1.000 J/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay chi_c2 + 1.000 J/psi gamma PHSP ; +Enddecay + +Decay J/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/Chic12Inclusive_E1.dec b/BaBar_2014/Chic12Inclusive_E1.dec new file mode 100644 index 0000000..ea7326a --- /dev/null +++ b/BaBar_2014/Chic12Inclusive_E1.dec @@ -0,0 +1,55 @@ +################################################################### +# B0~ --> Generic B0 --> Generic # +# | # +# Filter a chic1 or chic 2 and ask them to decay to J/Psi Gamma # +# | # +# J/psi gam # +# | # +# |-->mu+mu-/e+e- # +# Y.karyotakis 18 Feb 2000 # +# Mail: KARYOTAK@SLAC.STANFORD.EDU +# # +################################################################### +# +# +Define beta 0.39 +# +#################################################################### +# Define Chi_c1 -> J/Psi gamma amplitudes +# Parity invariance between the amplitudes implies: +# Bpp = Bmm; B0p = B0m; phBmm = phBpp + pi; phB0m = phB0p + pi +# +# put the values measured by the Crystal Barrel Experiment +# see M. Oreglia et al., Phys Rev D25, 2259, (1982) +# +# modulus +# +Define Bpp 0.70711 +Define B0p 0.70711 +Define Bmm 0.70711 +Define B0m 0.70711 +# +# phases +# +Define phBpp 0.0 +Define phBmm 3.141592654 +Define phB0p 0.0 +Define phB0m 3.141592654 +# +#################################################################### +# +# +Decay chi_c1 +1.000 J/psi gamma HELAMP Bpp phBpp B0p phB0p B0m phB0m Bmm phBmm; +Enddecay +# +Decay chi_c2 + 1.000 J/psi gamma PHSP ; +Enddecay + +Decay J/psi +0.5000 mu+ mu- PHOTOS VLL; +0.5000 e+ e- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/Dm_KmKsrho0.dec b/BaBar_2014/Dm_KmKsrho0.dec new file mode 100644 index 0000000..6391142 --- /dev/null +++ b/BaBar_2014/Dm_KmKsrho0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# ccbar continuum production # +# D- -> K- K0s rho0, Ks -> pi+pi-, rho0 -> pi+pi- # +# # +# created: hnichols april 8, 2000 # +################################################### +# +Alias myK_S0 K_S0 +Alias myrho0 rho0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D- +1.00 K- K_S0 rho0 PHSP; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +# +Decay myrho0 +1.00 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/DsDs___etapi_eta_to_gg_vs_taunu_tau_to_enunu.dec b/BaBar_2014/DsDs___etapi_eta_to_gg_vs_taunu_tau_to_enunu.dec new file mode 100644 index 0000000..bd4beb4 --- /dev/null +++ b/BaBar_2014/DsDs___etapi_eta_to_gg_vs_taunu_tau_to_enunu.dec @@ -0,0 +1,272 @@ +############################################################ +# +# Written as a UDECAY file for use with +# +# e+e- -> gamma_ISR Ds(*)Ds(*) +# +# events. Use with a filter that selects ISR events with +# DsDs, DsDs*, Ds*Ds, and/or Ds*Ds* +# +# or +# +# with a yet to be written (as of 11/99) generator +# that produces gamma_ISR Ds(*)Ds(*) directly. +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Nov 23, 1999 +# Mail: JOE@SLAC.STANFORD.EDU +# +# Ds+ -> eta pi+, eta-> g g +# Ds- -> tau nu nu, tau->e nu nu +# +# Ds decays forced at the very bottom of this file +############################################################ + +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay + +#Set up forced decay aliases +Alias phiKK phi +Alias phineu phi + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + + +# K*+ -> K0S pi+, K0S->pi+pi0- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# forced eta'->pi0 pi0 eta +Alias eta'00 eta' +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'neu eta' + +# forced eta->neutrals only +Alias eta-neu eta +Alias etagg eta +Alias etapp0 eta + +Alias f_0pp f_0 +Alias f_0KK f_0 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +# forced tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-enunu tau- +Alias tau-mununu tau- +Alias tau-pinu tau- +Alias tau-other1 tau- +Alias tau-all1 tau- + +Alias tau+enunu tau+ +Alias tau+mununu tau+ +Alias tau+pinu tau+ +Alias tau+other1 tau+ +Alias tau+all1 tau+ + +ChargeConj tau-enunu tau+enunu +ChargeConj tau-mununu tau+mununu +ChargeConj tau-pinu tau+pinu +ChargeConj tau-other1 tau+other1 +ChargeConj tau-all1 tau+all1 + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +##### Define forced decays of daughters +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +# Phi ->KL KS, KS->pi0pi0 +Decay phineu +1.0 K_L0 K0-00 VSS; +Enddecay + +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay + +# neutral K*0 modes. let jetset rescale +Decay K*0-neu +0.0490 K0-00 pi0 VSS; +0.1562 K_L0 pi0 VSS; +0.0010 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay + +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay + +# eta' -> pi0pi0 eta, eta-> neutrals +Decay eta'00 +1.0 pi0 pi0 eta-neu PHSP; +Enddecay + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'neu +1.0 pi0 pi0 eta-neu PHSP; +Enddecay + +# only neutral eta modes. Let jetset renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay tau-enunu +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay tau-mununu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay tau-pinu +1.0 pi- nu_tau TAUSCALARNU; +Enddecay + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + + +Decay a_1-1pr +1.0 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay + +Decay tau-other1 +0.2532 rho- nu_tau TAUVECTORNU; +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0915 +0.0915 a_1-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +Enddecay + +# all tau -> 1 prong modes. let jetset renormalize +Decay tau-all1 +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau TAUSCALARNU; +0.2532 rho- nu_tau TAUVECTORNU; +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0915 +0.0915 a_1-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +Enddecay + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +# The hadronic tag mode +Decay D_s+ +#1.0 phiKK pi+ SVS; +#1.0 eta-neu pi+ PHSP; +1.0 etagg pi+ PHSP; +#1.0 etapp0 pi+ PHSP; +#1.0 eta'gg pi+ PHSP; +#1.0 f_0pp pi+ PHSP; +#1.0 f_0KK pi+ PHSP; +#1.0 K0-pp K+ PHSP; + +# KKpi +#1.0 anti-K*0-Kp K+ SVS; + +# K0 K +#1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0 phiKK pi+ pi- pi+ PHSP; +#1.0 phiKK pi+ pi0 PHSP; +Enddecay + +Decay D_s- +# leptonic 1 prongs +#1.0 mu- anti-nu_mu PHOTOS SLN; +#1.0 tau- anti-nu_tau SLN; +1.0 tau-enunu anti-nu_tau SLN; +#1.0 tau-mununu anti-nu_tau SLN; +#1.0 tau-pinu anti-nu_tau SLN; +#1.0 tau-other1 anti-nu_tau SLN; +#1.0 tau-all1 anti-nu_tau SLN; + +# semileptonic 1 prongs +#1.0 phineu e- anti-nu_e PHOTOS ISGW2; +#1.0 eta-neu e- anti-nu_e PHOTOS ISGW2; +#1.0 etagg e- anti-nu_e PHOTOS ISGW2; +#1.0 eta'neu e- anti-nu_e PHOTOS ISGW2; +#1.0 K0-00 e- anti-nu_e PHOTOS ISGW2; +#1.0 K_L0 e- anti-nu_e PHOTOS ISGW2; +#1.0 K*0-neu e- anti-nu_e PHOTOS ISGW2; + +#1.0 phineu mu- anti-nu_mu PHOTOS ISGW2; +#1.0 eta-neu mu- anti-nu_mu PHOTOS ISGW2; +#1.0 etagg mu- anti-nu_mu PHOTOS ISGW2; +#1.0 eta'neu mu- anti-nu_mu PHOTOS ISGW2; +#1.0 K0-00 mu- anti-nu_mu PHOTOS ISGW2; +#1.0 K_L0 mu- anti-nu_mu PHOTOS ISGW2; +#1.0 K*0-neu mu- anti-nu_mu PHOTOS ISGW2; + +# hadronic 1 prong bg - these are the biggies. Lots more +#1.0 K_L0 K- PHSP; +#1.0 K0-00 K- PHSP; + +# hadronic tag modes +#1.0 phiKK pi- SVS; +#1.0 eta-neu pi- PHSP; +#1.0 etagg pi- PHSP; +#1.0 etapp0 pi- PHSP; +#1.0 eta'gg pi- PHSP; +#1.0 f_0pp pi- PHSP; +#1.0 f_0KK pi- PHSP; +#1.0 K0-pp K- PHSP; + +# KKpi +#1.0 K*0-Kp K- SVS; + +# K0 K +#1.0 K*0-Kp K*-K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +#1.0 phiKK pi- pi+ pi- PHSP; +#1.0 phiKK pi- pi0 PHSP; +Enddecay + +End diff --git a/BaBar_2014/DsToRecoK.dec b/BaBar_2014/DsToRecoK.dec new file mode 100644 index 0000000..353f257 --- /dev/null +++ b/BaBar_2014/DsToRecoK.dec @@ -0,0 +1,46 @@ +################################################################### +# Force the Ds decay into KK*,KKs modes +# Author: C.Voena 07 Jul 2001 +# Mail: CECILIA@SLAC.STANFORD.EDU +################################################################### + + + + + +Alias Myanti-K*0 anti-K*0 +Alias MyK*0 K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 + +ChargeConj D_s+ D_s- +ChargeConj Myanti-K*0 MyK*0 +ChargeConj Myanti-K0 MyK0 + + +Decay D_s+ +0.02244 Myanti-K*0 K+ SVS; +0.01224 Myanti-K0 K+ PHSP; +Enddecay +CDecay D_s- + +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +CDecay MyK0 +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + + +Decay Myanti-K*0 +1.0000 K- pi+ VSS; +Enddecay +CDecay MyK*0 + + + + +End diff --git a/BaBar_2014/DsToRecoPhi.dec b/BaBar_2014/DsToRecoPhi.dec new file mode 100644 index 0000000..44237a5 --- /dev/null +++ b/BaBar_2014/DsToRecoPhi.dec @@ -0,0 +1,27 @@ +################################################################### +# Force the Ds decay into PhiPi and PhiRho modes +# Author: C.Voena 07 Jul 2001 +# Mail: CECILIA@SLAC.STANFORD.EDU +################################################################### + + + + +Alias MyPhi phi + +ChargeConj D_s+ D_s- + + +Decay D_s+ +0.01800 MyPhi pi+ SVS; +0.03350 MyPhi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s- + + +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/Dsminus_to_omegarho.dec b/BaBar_2014/Dsminus_to_omegarho.dec new file mode 100644 index 0000000..6a98bc2 --- /dev/null +++ b/BaBar_2014/Dsminus_to_omegarho.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Decay: D_s- -> omega rho- # +# # +# Author: Ping Wang, IHEP, Beijing # +# Mail: wangp@SLAC.stanford.edu # +# Date: 20/Nov/2000 # +################################################### +# +# +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay +Decay D_s- +1.0 omega rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/Dsminus_tomomegapi.dec b/BaBar_2014/Dsminus_tomomegapi.dec new file mode 100644 index 0000000..f4b87a3 --- /dev/null +++ b/BaBar_2014/Dsminus_tomomegapi.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Decay: D_s -> omega pi- # +# # +# Author: Ping Wang, IHEP, Beijing # +# Mail : wangp@SLAC.stanford.edu # +# Date: 20/Nov/2000 # +################################################### +# +# +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay +Decay D_s- +1.0 omega pi- SVS; +Enddecay +# +End diff --git a/BaBar_2014/Dsplus_to_munu.dec b/BaBar_2014/Dsplus_to_munu.dec new file mode 100644 index 0000000..a34bcda --- /dev/null +++ b/BaBar_2014/Dsplus_to_munu.dec @@ -0,0 +1,25 @@ +############################################################ +# +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Dec 17, 1999 +# Mail: JOE@SLAC.STANFORD.EDU +# +# Ds+ -> mu nu +# Ds- is unaffected. +# +# Ds decays forced at the very bottom of this file +############################################################ + +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay + +# The hadronic tag mode +Decay D_s+ +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay + +End + diff --git a/BaBar_2014/Dsplus_to_omegapi.dec b/BaBar_2014/Dsplus_to_omegapi.dec new file mode 100644 index 0000000..95e7144 --- /dev/null +++ b/BaBar_2014/Dsplus_to_omegapi.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Decay: D_s+ -> omega pi+ # +# # +# Author: Ping Wang, IHEP, Beijing # +# Mail: wangp@SLAC.stanford.edu # +# Date: 20/Nov/2000 # +################################################### +# +# +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay +Decay D_s+ +1.0 omega pi+ SVS; +Enddecay +# +End diff --git a/BaBar_2014/Dsplus_to_omegarho.dec b/BaBar_2014/Dsplus_to_omegarho.dec new file mode 100644 index 0000000..835ef03 --- /dev/null +++ b/BaBar_2014/Dsplus_to_omegarho.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Decay: D_s+ -> omega rho+ # +# # +# Author: Ping Wang, IHEP, Beijing # +# Mail :wangp@SLAC.stanford.edu # +# Date: 20/Nov/2000 # +################################################### +# +# +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay +Decay D_s+ +1.0 omega rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/Dsplus_to_taunu.dec b/BaBar_2014/Dsplus_to_taunu.dec new file mode 100644 index 0000000..75e86fb --- /dev/null +++ b/BaBar_2014/Dsplus_to_taunu.dec @@ -0,0 +1,24 @@ +############################################################ +# +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Nov 23, 1999 +# +# Ds+ -> tau nu +# Ds- is unaffected. +# +# Ds decays forced at the very bottom of this file +############################################################ + +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay + +# The hadronic tag mode +Decay D_s+ +1.0 tau+ nu_tau SLN; +Enddecay + +End + diff --git a/BaBar_2014/Dsplus_to_taunumtau_to_enunu.dec b/BaBar_2014/Dsplus_to_taunumtau_to_enunu.dec new file mode 100644 index 0000000..499ce3e --- /dev/null +++ b/BaBar_2014/Dsplus_to_taunumtau_to_enunu.dec @@ -0,0 +1,30 @@ +############################################################ +# +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Dec 17, 1999 +# +# Ds+ -> tau nu, tau-> e nu nu +# Ds- is unaffected. +# +############################################################ + +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay + +#Set up forced decay aliases +Alias mytau+ tau+ + +# The hadronic tag mode +Decay D_s+ +1.0 mytau+ nu_tau SLN; +Enddecay + +Decay mytau+ +1.0 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +End + diff --git a/BaBar_2014/Dsplus_to_taunumtau_to_mununu.dec b/BaBar_2014/Dsplus_to_taunumtau_to_mununu.dec new file mode 100644 index 0000000..af29db9 --- /dev/null +++ b/BaBar_2014/Dsplus_to_taunumtau_to_mununu.dec @@ -0,0 +1,31 @@ +############################################################ +# +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Dec 17, 1999 +# Mail: JOE@SLAC.STANFORD.EDU +# +# Ds+ -> tau nu, tau-> mu nu nu +# Ds- is unaffected. +# +############################################################ + +# set virtual photons to go to ccbar +Decay vpho +1.000 JSCONT 4; +Enddecay + +#Set up forced decay aliases +Alias mytau+ tau+ + +# The hadronic tag mode +Decay D_s+ +1.0 mytau+ nu_tau SLN; +Enddecay + +Decay mytau+ +1.0 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +End + diff --git a/BaBar_2014/EtaCInclusive.dec b/BaBar_2014/EtaCInclusive.dec new file mode 100644 index 0000000..010047e --- /dev/null +++ b/BaBar_2014/EtaCInclusive.dec @@ -0,0 +1,34 @@ +############################################ +# eta_c # +# | # +# |--> K+ K- K- K+ # +# | # +# |--> phi phi --> K+ K- K- K+ # +# | # +# |--> p+ anti-p- # +# # +# Author: Gautier Hamel de Monchenault # +############################################ + +Alias MyPhi phi + +Decay eta_c +1.00 K+ K- K- K+ PHSP; +1.00 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +1.00 p+ anti-p- PHSP; +#0.00 K+ pi- K- pi+ PHSP; +#0.00 pi+ pi- pi+ pi- PHSP; +#0.00 MyK_S0 K+ pi- PHSP; +#0.00 MyK_S0 K- pi+ PHSP; +#0.00 K+ K- pi0 PHSP; +#0.00 MyEta pi+ pi- PHSP; +Enddecay + +Decay MyPhi +1.0000 K+ K- VSS; +Enddecay + +End + + + diff --git a/BaBar_2014/EtaCInclusive_2phi.dec b/BaBar_2014/EtaCInclusive_2phi.dec new file mode 100644 index 0000000..7c9d7cb --- /dev/null +++ b/BaBar_2014/EtaCInclusive_2phi.dec @@ -0,0 +1,21 @@ +############################################ +# eta_c # +# | # +# |--> phi phi --> K+ K- K- K+ # +# # +# Author: Georges London 26/7/2001 # +# london@hep.saclay.cea.fr # +############################################ + + Alias MyPhi phi + +Decay eta_c + 1.00 MyPhi MyPhi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; +Enddecay + + Decay MyPhi + 1.0000 K+ K- VSS; + Enddecay + +End + diff --git a/BaBar_2014/EtaCInclusive_4K.dec b/BaBar_2014/EtaCInclusive_4K.dec new file mode 100644 index 0000000..f54386e --- /dev/null +++ b/BaBar_2014/EtaCInclusive_4K.dec @@ -0,0 +1,15 @@ +############################################ +# eta_c # +# | # +# |--> K+ K- K- K+ # +# # +# Author: Georges London 26/7/2001 # +# london@hep.saclay.cea.fr # +############################################ + +Decay eta_c + 1.00 K+ K- K- K+ PHSP; +Enddecay + +End + diff --git a/BaBar_2014/EtaCInclusive_KsKPi.dec b/BaBar_2014/EtaCInclusive_KsKPi.dec new file mode 100644 index 0000000..2698f77 --- /dev/null +++ b/BaBar_2014/EtaCInclusive_KsKPi.dec @@ -0,0 +1,22 @@ +############################################ +# eta_c # +# | # +# |--> Ks K+ pi- + cc # +# # +# Author: Georges London 26/7/2001 # +# london@hep.saclay.cea.fr # +############################################ + + Alias MyK_S0 K_S0 + +Decay eta_c + 1.00 MyK_S0 K+ pi- PHSP; + 1.00 MyK_S0 K- pi+ PHSP; +Enddecay + + Decay MyK_S0 + 1.0000 pi+ pi- PHSP; + Enddecay + +End + diff --git a/BaBar_2014/EtaCInclusive_eta2pi.dec b/BaBar_2014/EtaCInclusive_eta2pi.dec new file mode 100644 index 0000000..cbf4fd5 --- /dev/null +++ b/BaBar_2014/EtaCInclusive_eta2pi.dec @@ -0,0 +1,21 @@ +############################################ +# eta_c # +# | # +# |--> eta pi+ pi- # +# # +# Author: Georges London 26/7/2001 # +# london@hep.saclay.cea.fr # +############################################ + + Alias MyEta eta + +Decay eta_c + 1.00 MyEta pi+ pi- PHSP; +Enddecay + + Decay MyEta + 1.0000 gamma gamma PHSP; + Enddecay + +End + diff --git a/BaBar_2014/EtaCInclusive_pi02K.dec b/BaBar_2014/EtaCInclusive_pi02K.dec new file mode 100644 index 0000000..7cc2da1 --- /dev/null +++ b/BaBar_2014/EtaCInclusive_pi02K.dec @@ -0,0 +1,21 @@ +############################################ +# eta_c # +# | # +# |--> K+ K- pi0 # +# # +# Author: Georges London 26/7/2001 # +# london@hep.saclay.cea.fr # +############################################ + + Alias MyPi0 pi0 + +Decay eta_c + 1.00 K+ K- MyPi0 PHSP; +Enddecay + + Decay MyPi0 + 1.0000 gamma gamma PHSP; + Enddecay + +End + diff --git a/BaBar_2014/EtaCInclusive_ppbar.dec b/BaBar_2014/EtaCInclusive_ppbar.dec new file mode 100644 index 0000000..e081021 --- /dev/null +++ b/BaBar_2014/EtaCInclusive_ppbar.dec @@ -0,0 +1,15 @@ +############################################ +# eta_c # +# | # +# |--> p+ anti-p- # +# # +# Author: Georges London 26/7/2001 # +# london@hep.saclay.cea.fr # +############################################ + +Decay eta_c + 1.00 p+ anti-p- PHSP; +Enddecay + +End + diff --git a/BaBar_2014/ISR_CbaryonpKpi_Dn_SP4.dec b/BaBar_2014/ISR_CbaryonpKpi_Dn_SP4.dec new file mode 100644 index 0000000..7ad7b63 --- /dev/null +++ b/BaBar_2014/ISR_CbaryonpKpi_Dn_SP4.dec @@ -0,0 +1,731 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 21, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma CharmBaryon D(*) neutron + CC using VectorISR with +# effective Ecm of 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Charm Baryons may be Lambda_c+, +# Sigma_c0, Sigma_c+, Sigma_c++, +# Sigma_c*0, Sigma_c*+, Sigma_c*++, +# +# Need 5.1 GeV to make Lc D n +# Need 5.3 GeV to make Lc D* n +# Need 5.3 GeV to make Sc D n +# Need 5.5 GeV to make Sc D* n +# Need 5.4 GeV to make Sc* D n +# Need 5.5 GeV to make Sc* D* n +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# The Lambda_c is forced to pKpi +# D0 is forced to Kpi +# D+ is forced to Kpipi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias CbaryonDn1 eta_b2(2D) +Alias CbaryonDn2 Upsilon(5S) +Alias CbaryonDn3 chi_b1(2P) +Alias CbaryonDn4 chi_b1(3P) +Alias CbaryonDn5 Upsilon_1(1D) +Alias CbaryonDn6 Upsilon_1(2D) +Alias CbaryonDn7 chi_b1 +Alias CbaryonDn8 Z'0 +Alias CbaryonDn9 Z''0 +Alias CbaryonDn10 R0 +Alias CbaryonDn11 anti-R0 +Alias CbaryonDn12 D*(2S)0 +Alias CbaryonDn13 anti-D*(2S)0 +Alias CbaryonDn14 B*0 +Alias CbaryonDn15 anti-B*0 +Alias CbaryonDn16 B_s*0 +Alias CbaryonDn17 anti-B_s*0 +Alias CbaryonDn18 h_b +Alias CbaryonDn19 h_b(2P) +Alias CbaryonDn20 h_b(3P) +Alias CbaryonDn21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle CbaryonDn1 5.0 0. +Particle CbaryonDn2 5.1 0. +Particle CbaryonDn3 5.2 0. +Particle CbaryonDn4 5.3 0. +Particle CbaryonDn5 5.4 0. +Particle CbaryonDn6 5.5 0. +Particle CbaryonDn7 5.6 0. +Particle CbaryonDn8 5.7 0. +Particle CbaryonDn9 5.8 0. +Particle CbaryonDn10 5.9 0. +Particle CbaryonDn11 6.0 0. +Particle CbaryonDn12 6.1 0. +Particle CbaryonDn13 6.2 0. +Particle CbaryonDn14 6.3 0. +Particle CbaryonDn15 6.4 0. +Particle CbaryonDn16 6.5 0. +Particle CbaryonDn17 6.6 0. +Particle CbaryonDn18 6.7 0. +Particle CbaryonDn19 6.8 0. +Particle CbaryonDn20 6.9 0. +Particle CbaryonDn21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +# 5.0 GeV +Decay CbaryonDn1 +Enddecay + +# 5.1 GeV +Decay CbaryonDn2 +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +Enddecay + +# 5.2 GeV +Decay CbaryonDn3 +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +Enddecay + +# 5.3 GeV +Decay CbaryonDn4 +1. Sigma_c+_pKpi D- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +# 5.4 GeV +Decay CbaryonDn5 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn6 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn7 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn8 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn9 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn10 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn11 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn12 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn13 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn14 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn15 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn16 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn17 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn18 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn19 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn20 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + +Decay CbaryonDn21 +1. Sigma_c+_pKpi D- anti-n0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 PHSP; +Enddecay + + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + +Decay D0 +1.0000 K- pi+ PHSP; +Enddecay +CDecay anti-D0 + +Decay D+ +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D- + +Decay vpho +#1. CbaryonDn1 gamma VECTORISR 0.999999 0.999999; Below Threshold +1. CbaryonDn2 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn3 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn4 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn5 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn6 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn7 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn8 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn9 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn10 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn11 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn12 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn13 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn14 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn15 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn16 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn17 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn18 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn19 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn20 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDn21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_CbaryonpKpi_Dnpi0_SP4.dec b/BaBar_2014/ISR_CbaryonpKpi_Dnpi0_SP4.dec new file mode 100644 index 0000000..61762bd --- /dev/null +++ b/BaBar_2014/ISR_CbaryonpKpi_Dnpi0_SP4.dec @@ -0,0 +1,697 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 21, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma CharmBaryon D(*) neutron pi0 + CC using VectorISR with +# effective Ecm of 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Charm Baryons may be Lambda_c+, +# Sigma_c0, Sigma_c+, Sigma_c++, +# Sigma_c*0, Sigma_c*+, Sigma_c*++, +# +# Need 5.3 GeV to make Lc D n pi0 +# Need 5.4 GeV to make Lc D* n pi0 +# Need 5.4 GeV to make Sc D n pi0 +# Need 5.6 GeV to make Sc D* n pi0 +# Need 5.5 GeV to make Sc* D n pi0 +# Need 5.7 GeV to make Sc* D* n pi0 +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# The Lambda_c is forced to pKpi +# D0 is forced to Kpi +# D+ is forced to Kpipi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias CbaryonDnpi0_1 eta_b2(2D) +Alias CbaryonDnpi0_2 Upsilon(5S) +Alias CbaryonDnpi0_3 chi_b1(2P) +Alias CbaryonDnpi0_4 chi_b1(3P) +Alias CbaryonDnpi0_5 Upsilon_1(1D) +Alias CbaryonDnpi0_6 Upsilon_1(2D) +Alias CbaryonDnpi0_7 chi_b1 +Alias CbaryonDnpi0_8 Z'0 +Alias CbaryonDnpi0_9 Z''0 +Alias CbaryonDnpi0_10 R0 +Alias CbaryonDnpi0_11 anti-R0 +Alias CbaryonDnpi0_12 D*(2S)0 +Alias CbaryonDnpi0_13 anti-D*(2S)0 +Alias CbaryonDnpi0_14 B*0 +Alias CbaryonDnpi0_15 anti-B*0 +Alias CbaryonDnpi0_16 B_s*0 +Alias CbaryonDnpi0_17 anti-B_s*0 +Alias CbaryonDnpi0_18 h_b +Alias CbaryonDnpi0_19 h_b(2P) +Alias CbaryonDnpi0_20 h_b(3P) +Alias CbaryonDnpi0_21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle CbaryonDnpi0_1 5.0 0. +Particle CbaryonDnpi0_2 5.1 0. +Particle CbaryonDnpi0_3 5.2 0. +Particle CbaryonDnpi0_4 5.3 0. +Particle CbaryonDnpi0_5 5.4 0. +Particle CbaryonDnpi0_6 5.5 0. +Particle CbaryonDnpi0_7 5.6 0. +Particle CbaryonDnpi0_8 5.7 0. +Particle CbaryonDnpi0_9 5.8 0. +Particle CbaryonDnpi0_10 5.9 0. +Particle CbaryonDnpi0_11 6.0 0. +Particle CbaryonDnpi0_12 6.1 0. +Particle CbaryonDnpi0_13 6.2 0. +Particle CbaryonDnpi0_14 6.3 0. +Particle CbaryonDnpi0_15 6.4 0. +Particle CbaryonDnpi0_16 6.5 0. +Particle CbaryonDnpi0_17 6.6 0. +Particle CbaryonDnpi0_18 6.7 0. +Particle CbaryonDnpi0_19 6.8 0. +Particle CbaryonDnpi0_20 6.9 0. +Particle CbaryonDnpi0_21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +# 5.0 GeV +Decay CbaryonDnpi0_1 +Enddecay + +# 5.1 GeV +Decay CbaryonDnpi0_2 +Enddecay + +# 5.2 GeV +Decay CbaryonDnpi0_3 +Enddecay + +# 5.3 GeV +Decay CbaryonDnpi0_4 +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +Enddecay + +# 5.4 GeV +Decay CbaryonDnpi0_5 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +# 5.5 GeV +Decay CbaryonDnpi0_6 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +# 5.6 GeV +Decay CbaryonDnpi0_7 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_8 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_9 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_10 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_11 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_12 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_13 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_14 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_15 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_16 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_17 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_18 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_19 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_20 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + +Decay CbaryonDnpi0_21 +1. Sigma_c+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c+_pKpi D*- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D- anti-n0 pi0 PHSP; +1. Sigma_c*+_pKpi D*- anti-n0 pi0 PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-n0 pi0 PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-n0 pi0 PHSP; + +1. Lambda_c+_pKpi D- anti-n0 pi0 PHSP; +1. Lambda_c+_pKpi D*- anti-n0 pi0 PHSP; + +1. anti-Sigma_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c-_pKpi D*+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D+ n0 pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*+ n0 pi0 PHSP; + +1. anti-Sigma_c0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c0_pKpi D*0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D0 n0 pi0 PHSP; +1. anti-Sigma_c*0_pKpi D*0 n0 pi0 PHSP; + +1. anti-Lambda_c-_pKpi D+ n0 pi0 PHSP; +1. anti-Lambda_c-_pKpi D*+ n0 pi0 PHSP; +Enddecay + + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + +Decay D0 +1.0000 K- pi+ PHSP; +Enddecay +CDecay anti-D0 + +Decay D+ +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D- + +Decay vpho +#1. CbaryonDnpi0_1 gamma VECTORISR 0.999999 0.999999; Below Threshold +#1. CbaryonDnpi0_2 gamma VECTORISR 0.999999 0.999999; +#1. CbaryonDnpi0_3 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_4 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_5 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_6 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_7 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_8 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_9 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_10 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_11 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_12 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_13 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_14 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_15 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_16 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_17 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_18 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_19 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_20 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi0_21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_CbaryonpKpi_Dnpi_SP4.dec b/BaBar_2014/ISR_CbaryonpKpi_Dnpi_SP4.dec new file mode 100644 index 0000000..088a72c --- /dev/null +++ b/BaBar_2014/ISR_CbaryonpKpi_Dnpi_SP4.dec @@ -0,0 +1,855 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 21, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma CharmBaryon anti-D(*) anti-neutron pi + CC using VectorISR with +# effective Ecm of 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Charm Baryons may be Lambda_c+, +# Sigma_c0, Sigma_c+, Sigma_c++, +# Sigma_c*0, Sigma_c*+, Sigma_c*++, +# +# Need 5.3 GeV to make Lc D n pi +# Need 5.4 GeV to make Lc D* n pi +# Need 5.4 GeV to make Sc D n pi +# Need 5.6 GeV to make Sc D* n pi +# Need 5.5 GeV to make Sc* D n pi +# Need 5.7 GeV to make Sc* D* n pi +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# The Lambda_c is forced to pKpi +# D0 is forced to Kpi +# D+ is forced to Kpipi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias CbaryonDnpi1 eta_b2(2D) +Alias CbaryonDnpi2 Upsilon(5S) +Alias CbaryonDnpi3 chi_b1(2P) +Alias CbaryonDnpi4 chi_b1(3P) +Alias CbaryonDnpi5 Upsilon_1(1D) +Alias CbaryonDnpi6 Upsilon_1(2D) +Alias CbaryonDnpi7 chi_b1 +Alias CbaryonDnpi8 Z'0 +Alias CbaryonDnpi9 Z''0 +Alias CbaryonDnpi10 R0 +Alias CbaryonDnpi11 anti-R0 +Alias CbaryonDnpi12 D*(2S)0 +Alias CbaryonDnpi13 anti-D*(2S)0 +Alias CbaryonDnpi14 B*0 +Alias CbaryonDnpi15 anti-B*0 +Alias CbaryonDnpi16 B_s*0 +Alias CbaryonDnpi17 anti-B_s*0 +Alias CbaryonDnpi18 h_b +Alias CbaryonDnpi19 h_b(2P) +Alias CbaryonDnpi20 h_b(3P) +Alias CbaryonDnpi21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle CbaryonDnpi1 5.0 0. +Particle CbaryonDnpi2 5.1 0. +Particle CbaryonDnpi3 5.2 0. +Particle CbaryonDnpi4 5.3 0. +Particle CbaryonDnpi5 5.4 0. +Particle CbaryonDnpi6 5.5 0. +Particle CbaryonDnpi7 5.6 0. +Particle CbaryonDnpi8 5.7 0. +Particle CbaryonDnpi9 5.8 0. +Particle CbaryonDnpi10 5.9 0. +Particle CbaryonDnpi11 6.0 0. +Particle CbaryonDnpi12 6.1 0. +Particle CbaryonDnpi13 6.2 0. +Particle CbaryonDnpi14 6.3 0. +Particle CbaryonDnpi15 6.4 0. +Particle CbaryonDnpi16 6.5 0. +Particle CbaryonDnpi17 6.6 0. +Particle CbaryonDnpi18 6.7 0. +Particle CbaryonDnpi19 6.8 0. +Particle CbaryonDnpi20 6.9 0. +Particle CbaryonDnpi21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +# 5.0 GeV +Decay CbaryonDnpi1 +Enddecay + +# 5.1 GeV +Decay CbaryonDnpi2 +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +Enddecay + +# 5.2 GeV +Decay CbaryonDnpi3 +Enddecay + +# 5.3 GeV +Decay CbaryonDnpi4 +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +Enddecay + +# 5.4 GeV +Decay CbaryonDnpi5 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +# 5.5 GeV +Decay CbaryonDnpi6 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +# 5.6 GeV +Decay CbaryonDnpi7 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi8 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi9 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi10 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi11 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi12 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi13 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi14 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi15 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi16 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi17 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi18 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi19 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi20 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + +Decay CbaryonDnpi21 +1. Sigma_c++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c++_pKpi D*- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D- anti-n0 pi- PHSP; +1. Sigma_c*++_pKpi D*- anti-n0 pi- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. Sigma_c0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c0_pKpi D*- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D- anti-n0 pi+ PHSP; +1. Sigma_c*0_pKpi D*- anti-n0 pi+ PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-n0 pi- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-n0 pi- PHSP; + +1. anti-Sigma_c--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c--_pKpi D*+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D+ n0 pi+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ n0 pi+ PHSP; + +1. anti-Sigma_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c-_pKpi D*0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D0 n0 pi+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 n0 pi+ PHSP; + +1. anti-Sigma_c0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c0_pKpi D*+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D+ n0 pi- PHSP; +1. anti-Sigma_c*0_pKpi D*+ n0 pi- PHSP; + +1. anti-Lambda_c-_pKpi D0 n0 pi+ PHSP; +1. anti-Lambda_c-_pKpi D*0 n0 pi+ PHSP; +Enddecay + + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + +Decay D0 +1.0000 K- pi+ PHSP; +Enddecay +CDecay anti-D0 + +Decay D+ +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D- + +Decay vpho +#1. CbaryonDnpi1 gamma VECTORISR 0.999999 0.999999; Below Threshold +#1. CbaryonDnpi2 gamma VECTORISR 0.999999 0.999999; +#1. CbaryonDnpi3 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi4 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi5 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi6 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi7 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi8 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi9 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi10 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi11 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi12 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi13 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi14 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi15 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi16 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi17 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi18 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi19 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi20 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDnpi21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_CbaryonpKpi_Dp_SP4.dec b/BaBar_2014/ISR_CbaryonpKpi_Dp_SP4.dec new file mode 100644 index 0000000..c78de59 --- /dev/null +++ b/BaBar_2014/ISR_CbaryonpKpi_Dp_SP4.dec @@ -0,0 +1,731 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 21, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma CharmBaryon D(*) proton + CC using VectorISR with +# effective Ecm of 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Charm Baryons may be Lambda_c+, +# Sigma_c0, Sigma_c+, Sigma_c++, +# Sigma_c*0, Sigma_c*+, Sigma_c*++, +# +# Need 5.1 GeV to make Lc D p +# Need 5.3 GeV to make Lc D* p +# Need 5.3 GeV to make Sc D p +# Need 5.5 GeV to make Sc D* p +# Need 5.4 GeV to make Sc* D p +# Need 5.5 GeV to make Sc* D* p +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# The Lambda_c is forced to pKpi +# D0 is forced to Kpi +# D+ is forced to Kpipi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias CbaryonDp1 eta_b2(2D) +Alias CbaryonDp2 Upsilon(5S) +Alias CbaryonDp3 chi_b1(2P) +Alias CbaryonDp4 chi_b1(3P) +Alias CbaryonDp5 Upsilon_1(1D) +Alias CbaryonDp6 Upsilon_1(2D) +Alias CbaryonDp7 chi_b1 +Alias CbaryonDp8 Z'0 +Alias CbaryonDp9 Z''0 +Alias CbaryonDp10 R0 +Alias CbaryonDp11 anti-R0 +Alias CbaryonDp12 D*(2S)0 +Alias CbaryonDp13 anti-D*(2S)0 +Alias CbaryonDp14 B*0 +Alias CbaryonDp15 anti-B*0 +Alias CbaryonDp16 B_s*0 +Alias CbaryonDp17 anti-B_s*0 +Alias CbaryonDp18 h_b +Alias CbaryonDp19 h_b(2P) +Alias CbaryonDp20 h_b(3P) +Alias CbaryonDp21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle CbaryonDp1 5.0 0. +Particle CbaryonDp2 5.1 0. +Particle CbaryonDp3 5.2 0. +Particle CbaryonDp4 5.3 0. +Particle CbaryonDp5 5.4 0. +Particle CbaryonDp6 5.5 0. +Particle CbaryonDp7 5.6 0. +Particle CbaryonDp8 5.7 0. +Particle CbaryonDp9 5.8 0. +Particle CbaryonDp10 5.9 0. +Particle CbaryonDp11 6.0 0. +Particle CbaryonDp12 6.1 0. +Particle CbaryonDp13 6.2 0. +Particle CbaryonDp14 6.3 0. +Particle CbaryonDp15 6.4 0. +Particle CbaryonDp16 6.5 0. +Particle CbaryonDp17 6.6 0. +Particle CbaryonDp18 6.7 0. +Particle CbaryonDp19 6.8 0. +Particle CbaryonDp20 6.9 0. +Particle CbaryonDp21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +# 5.0 GeV +Decay CbaryonDp1 +Enddecay + +# 5.1 GeV +Decay CbaryonDp2 +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +Enddecay + +# 5.2 GeV +Decay CbaryonDp3 +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +Enddecay + +# 5.3 GeV +Decay CbaryonDp4 +1. Sigma_c++_pKpi D- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +# 5.4 GeV +Decay CbaryonDp5 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp6 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp7 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp8 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp9 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp10 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp11 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp12 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp13 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp14 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp15 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp16 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp17 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp18 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp19 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp20 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + +Decay CbaryonDp21 +1. Sigma_c++_pKpi D- anti-p- PHSP; +1. Sigma_c++_pKpi D*- anti-p- PHSP; +1. Sigma_c*++_pKpi D- anti-p- PHSP; +1. Sigma_c*++_pKpi D*- anti-p- PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ PHSP; +Enddecay + + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + +Decay D0 +1.0000 K- pi+ PHSP; +Enddecay +CDecay anti-D0 + +Decay D+ +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D- + +Decay vpho +#1. CbaryonDp1 gamma VECTORISR 0.999999 0.999999; Below Threshold +1. CbaryonDp2 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp3 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp4 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp5 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp6 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp7 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp8 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp9 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp10 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp11 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp12 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp13 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp14 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp15 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp16 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp17 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp18 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp19 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp20 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDp21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_CbaryonpKpi_Dppi0_SP4.dec b/BaBar_2014/ISR_CbaryonpKpi_Dppi0_SP4.dec new file mode 100644 index 0000000..296338a --- /dev/null +++ b/BaBar_2014/ISR_CbaryonpKpi_Dppi0_SP4.dec @@ -0,0 +1,699 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 21, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma CharmBaryon anti-D(*) anti-proton pi0 + CC using VectorISR with +# effective Ecm of 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Charm Baryons may be Lambda_c+, +# Sigma_c0, Sigma_c+, Sigma_c++, +# Sigma_c*0, Sigma_c*+, Sigma_c*++, +# +# Need 5.3 GeV to make Lc D p pi0 +# Need 5.4 GeV to make Lc D* p pi0 +# Need 5.4 GeV to make Sc D p pi0 +# Need 5.6 GeV to make Sc D* p pi0 +# Need 5.5 GeV to make Sc* D p pi0 +# Need 5.7 GeV to make Sc* D* p pi0 +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# The Lambda_c is forced to pKpi +# D0 is forced to Kpi +# D+ is forced to Kpipi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias CbaryonDppi0_1 eta_b2(2D) +Alias CbaryonDppi0_2 Upsilon(5S) +Alias CbaryonDppi0_3 chi_b1(2P) +Alias CbaryonDppi0_4 chi_b1(3P) +Alias CbaryonDppi0_5 Upsilon_1(1D) +Alias CbaryonDppi0_6 Upsilon_1(2D) +Alias CbaryonDppi0_7 chi_b1 +Alias CbaryonDppi0_8 Z'0 +Alias CbaryonDppi0_9 Z''0 +Alias CbaryonDppi0_10 R0 +Alias CbaryonDppi0_11 anti-R0 +Alias CbaryonDppi0_12 D*(2S)0 +Alias CbaryonDppi0_13 anti-D*(2S)0 +Alias CbaryonDppi0_14 B*0 +Alias CbaryonDppi0_15 anti-B*0 +Alias CbaryonDppi0_16 B_s*0 +Alias CbaryonDppi0_17 anti-B_s*0 +Alias CbaryonDppi0_18 h_b +Alias CbaryonDppi0_19 h_b(2P) +Alias CbaryonDppi0_20 h_b(3P) +Alias CbaryonDppi0_21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle CbaryonDppi0_1 5.0 0. +Particle CbaryonDppi0_2 5.1 0. +Particle CbaryonDppi0_3 5.2 0. +Particle CbaryonDppi0_4 5.3 0. +Particle CbaryonDppi0_5 5.4 0. +Particle CbaryonDppi0_6 5.5 0. +Particle CbaryonDppi0_7 5.6 0. +Particle CbaryonDppi0_8 5.7 0. +Particle CbaryonDppi0_9 5.8 0. +Particle CbaryonDppi0_10 5.9 0. +Particle CbaryonDppi0_11 6.0 0. +Particle CbaryonDppi0_12 6.1 0. +Particle CbaryonDppi0_13 6.2 0. +Particle CbaryonDppi0_14 6.3 0. +Particle CbaryonDppi0_15 6.4 0. +Particle CbaryonDppi0_16 6.5 0. +Particle CbaryonDppi0_17 6.6 0. +Particle CbaryonDppi0_18 6.7 0. +Particle CbaryonDppi0_19 6.8 0. +Particle CbaryonDppi0_20 6.9 0. +Particle CbaryonDppi0_21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +# 5.0 GeV +Decay CbaryonDppi0_1 +Enddecay + +# 5.1 GeV +Decay CbaryonDppi0_2 +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +Enddecay + +# 5.2 GeV +Decay CbaryonDppi0_3 +Enddecay + +# 5.3 GeV +Decay CbaryonDppi0_4 +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +Enddecay + +# 5.4 GeV +Decay CbaryonDppi0_5 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +# 5.5 GeV +Decay CbaryonDppi0_6 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +# 5.6 GeV +Decay CbaryonDppi0_7 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_8 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_9 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_10 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_11 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_12 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_13 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_14 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_15 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_16 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_17 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_18 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_19 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_20 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + +Decay CbaryonDppi0_21 +1. Sigma_c++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c++_pKpi D*- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D- anti-p- pi0 PHSP; +1. Sigma_c*++_pKpi D*- anti-p- pi0 PHSP; + +1. Sigma_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c+_pKpi anti-D*0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Sigma_c*+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. Lambda_c+_pKpi anti-D0 anti-p- pi0 PHSP; +1. Lambda_c+_pKpi anti-D*0 anti-p- pi0 PHSP; + +1. anti-Sigma_c--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c--_pKpi D*+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D+ p+ pi0 PHSP; +1. anti-Sigma_c*--_pKpi D*+ p+ pi0 PHSP; + +1. anti-Sigma_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c-_pKpi D*0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D0 p+ pi0 PHSP; +1. anti-Sigma_c*-_pKpi D*0 p+ pi0 PHSP; + +1. anti-Lambda_c-_pKpi D0 p+ pi0 PHSP; +1. anti-Lambda_c-_pKpi D*0 p+ pi0 PHSP; +Enddecay + + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + +Decay D0 +1.0000 K- pi+ PHSP; +Enddecay +CDecay anti-D0 + +Decay D+ +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D- + +Decay vpho +#1. CbaryonDppi0_1 gamma VECTORISR 0.999999 0.999999; Below Threshold +#1. CbaryonDppi0_2 gamma VECTORISR 0.999999 0.999999; +#1. CbaryonDppi0_3 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_4 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_5 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_6 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_7 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_8 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_9 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_10 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_11 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_12 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_13 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_14 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_15 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_16 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_17 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_18 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_19 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_20 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi0_21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_CbaryonpKpi_Dppi_SP4.dec b/BaBar_2014/ISR_CbaryonpKpi_Dppi_SP4.dec new file mode 100644 index 0000000..8efc024 --- /dev/null +++ b/BaBar_2014/ISR_CbaryonpKpi_Dppi_SP4.dec @@ -0,0 +1,697 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 21, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma CharmBaryon anti-D(*) anti-proton pi + CC using VectorISR with +# effective Ecm of 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Charm Baryons may be Lambda_c+, +# Sigma_c0, Sigma_c+, Sigma_c++, +# Sigma_c*0, Sigma_c*+, Sigma_c*++, +# +# Need 5.3 GeV to make Lc D p pi +# Need 5.4 GeV to make Lc D* p pi +# Need 5.4 GeV to make Sc D p pi +# Need 5.6 GeV to make Sc D* p pi +# Need 5.5 GeV to make Sc* D p pi +# Need 5.7 GeV to make Sc* D* p pi +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# The Lambda_c is forced to pKpi +# D0 is forced to Kpi +# D+ is forced to Kpipi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias CbaryonDppi1 eta_b2(2D) +Alias CbaryonDppi2 Upsilon(5S) +Alias CbaryonDppi3 chi_b1(2P) +Alias CbaryonDppi4 chi_b1(3P) +Alias CbaryonDppi5 Upsilon_1(1D) +Alias CbaryonDppi6 Upsilon_1(2D) +Alias CbaryonDppi7 chi_b1 +Alias CbaryonDppi8 Z'0 +Alias CbaryonDppi9 Z''0 +Alias CbaryonDppi10 R0 +Alias CbaryonDppi11 anti-R0 +Alias CbaryonDppi12 D*(2S)0 +Alias CbaryonDppi13 anti-D*(2S)0 +Alias CbaryonDppi14 B*0 +Alias CbaryonDppi15 anti-B*0 +Alias CbaryonDppi16 B_s*0 +Alias CbaryonDppi17 anti-B_s*0 +Alias CbaryonDppi18 h_b +Alias CbaryonDppi19 h_b(2P) +Alias CbaryonDppi20 h_b(3P) +Alias CbaryonDppi21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle CbaryonDppi1 5.0 0. +Particle CbaryonDppi2 5.1 0. +Particle CbaryonDppi3 5.2 0. +Particle CbaryonDppi4 5.3 0. +Particle CbaryonDppi5 5.4 0. +Particle CbaryonDppi6 5.5 0. +Particle CbaryonDppi7 5.6 0. +Particle CbaryonDppi8 5.7 0. +Particle CbaryonDppi9 5.8 0. +Particle CbaryonDppi10 5.9 0. +Particle CbaryonDppi11 6.0 0. +Particle CbaryonDppi12 6.1 0. +Particle CbaryonDppi13 6.2 0. +Particle CbaryonDppi14 6.3 0. +Particle CbaryonDppi15 6.4 0. +Particle CbaryonDppi16 6.5 0. +Particle CbaryonDppi17 6.6 0. +Particle CbaryonDppi18 6.7 0. +Particle CbaryonDppi19 6.8 0. +Particle CbaryonDppi20 6.9 0. +Particle CbaryonDppi21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +# 5.0 GeV +Decay CbaryonDppi1 +Enddecay + +# 5.1 GeV +Decay CbaryonDppi2 +Enddecay + +# 5.2 GeV +Decay CbaryonDppi3 +Enddecay + +# 5.3 GeV +Decay CbaryonDppi4 +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +Enddecay + +# 5.4 GeV +Decay CbaryonDppi5 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +# 5.5 GeV +Decay CbaryonDppi6 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +# 5.6 GeV +Decay CbaryonDppi7 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi8 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi9 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi10 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi11 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi12 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi13 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi14 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi15 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi16 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi17 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi18 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi19 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi20 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + +Decay CbaryonDppi21 +1. Sigma_c+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c+_pKpi D*- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D- anti-p- pi+ PHSP; +1. Sigma_c*+_pKpi D*- anti-p- pi+ PHSP; + +1. Sigma_c0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c0_pKpi anti-D*0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D0 anti-p- pi+ PHSP; +1. Sigma_c*0_pKpi anti-D*0 anti-p- pi+ PHSP; + +1. Lambda_c+_pKpi D- anti-p- pi+ PHSP; +1. Lambda_c+_pKpi D*- anti-p- pi+ PHSP; + +1. anti-Sigma_c-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c-_pKpi D*+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D+ p+ pi- PHSP; +1. anti-Sigma_c*-_pKpi D*+ p+ pi- PHSP; + +1. anti-Sigma_c0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c0_pKpi D*0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D0 p+ pi- PHSP; +1. anti-Sigma_c*0_pKpi D*0 p+ pi- PHSP; + +1. anti-Lambda_c-_pKpi D+ p+ pi- PHSP; +1. anti-Lambda_c-_pKpi D*+ p+ pi- PHSP; +Enddecay + + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + +Decay D0 +1.0000 K- pi+ PHSP; +Enddecay +CDecay anti-D0 + +Decay D+ +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D- + +Decay vpho +#1. CbaryonDppi1 gamma VECTORISR 0.999999 0.999999; Below Threshold +#1. CbaryonDppi2 gamma VECTORISR 0.999999 0.999999; +#1. CbaryonDppi3 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi4 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi5 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi6 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi7 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi8 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi9 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi10 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi11 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi12 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi13 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi14 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi15 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi16 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi17 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi18 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi19 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi20 gamma VECTORISR 0.999999 0.999999; +1. CbaryonDppi21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_LcCocktail_LcCocktail_SP4.dec b/BaBar_2014/ISR_LcCocktail_LcCocktail_SP4.dec new file mode 100644 index 0000000..cefb544 --- /dev/null +++ b/BaBar_2014/ISR_LcCocktail_LcCocktail_SP4.dec @@ -0,0 +1,286 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 18, 2002 Copyright 2000, 2002 +# +# Produce e+e- -> ISRgamma Lambda_c anti-Lambda_c using VectorISR with +# effective Ecm of 4.6 4.7 4.8 4.9 +# 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.2 6.4 6.5 6.6 6.8 +# 7.0 +# Neither Lambda_c decay is forced +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## +Alias vphoLcLc vpho +Alias vphoScSc vpho + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias LcLc1 eta_b2(2D) +Alias LcLc2 Upsilon(5S) +Alias LcLc3 chi_b1(2P) +Alias LcLc4 chi_b1(3P) +Alias LcLc5 Upsilon_1(1D) +Alias LcLc6 Upsilon_1(2D) +Alias LcLc7 chi_b1 +Alias LcLc8 Z'0 +Alias LcLc9 Z''0 +Alias LcLc10 R0 +Alias LcLc11 anti-R0 +Alias LcLc12 D*(2S)0 +Alias LcLc13 anti-D*(2S)0 +Alias LcLc14 B*0 +Alias LcLc15 anti-B*0 +Alias LcLc16 B_s*0 +Alias LcLc17 anti-B_s*0 +Alias LcLc18 h_b +Alias LcLc19 h_b(2P) +Alias LcLc20 h_b(3P) +Alias LcLc21 eta_b2(1D) + +Alias ScSc1 eta_b2(2D) +Alias ScSc2 Upsilon(5S) +Alias ScSc3 chi_b1(2P) +Alias ScSc4 chi_b1(3P) +Alias ScSc5 Upsilon_1(1D) +Alias ScSc6 Upsilon_1(2D) +Alias ScSc7 chi_b1 +Alias ScSc8 Z'0 +Alias ScSc9 Z''0 +Alias ScSc10 R0 +Alias ScSc11 anti-R0 +Alias ScSc12 D*(2S)0 +Alias ScSc13 anti-D*(2S)0 +Alias ScSc14 B*0 +Alias ScSc15 anti-B*0 +Alias ScSc16 B_s*0 +Alias ScSc17 anti-B_s*0 +Alias ScSc18 h_b +Alias ScSc19 h_b(2P) +Alias ScSc20 h_b(3P) +Alias ScSc21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle LcLc1 4.6 0. +Particle LcLc2 4.7 0. +Particle LcLc3 4.8 0. +Particle LcLc4 4.9 0. +Particle LcLc5 5.0 0. +Particle LcLc6 5.1 0. +Particle LcLc7 5.2 0. +Particle LcLc8 5.3 0. +Particle LcLc9 5.4 0. +Particle LcLc10 5.5 0. +Particle LcLc11 5.6 0. +Particle LcLc12 5.7 0. +Particle LcLc13 5.8 0. +Particle LcLc14 5.9 0. +Particle LcLc15 6.0 0. +Particle LcLc16 6.2 0. +Particle LcLc17 6.4 0. +Particle LcLc18 6.5 0. +Particle LcLc19 6.6 0. +Particle LcLc20 6.8 0. +Particle LcLc21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +Decay ScSc1 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc2 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc3 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc4 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc5 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc6 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc7 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay LcLc1 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc2 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc3 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc4 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc5 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc6 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc7 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc8 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc9 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc10 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc11 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc12 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc13 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc14 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc15 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc16 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc17 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc18 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc19 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc20 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc21 +1.0 Lambda_c+ anti-Lambda_c- PHSP; +Enddecay + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay vpho +1. LcLc1 gamma VECTORISR 0.999999 0.999999; +1. LcLc2 gamma VECTORISR 0.999999 0.999999; +1. LcLc3 gamma VECTORISR 0.999999 0.999999; +1. LcLc4 gamma VECTORISR 0.999999 0.999999; +1. LcLc5 gamma VECTORISR 0.999999 0.999999; +1. LcLc6 gamma VECTORISR 0.999999 0.999999; +1. LcLc7 gamma VECTORISR 0.999999 0.999999; +1. LcLc8 gamma VECTORISR 0.999999 0.999999; +1. LcLc9 gamma VECTORISR 0.999999 0.999999; +1. LcLc10 gamma VECTORISR 0.999999 0.999999; +1. LcLc11 gamma VECTORISR 0.999999 0.999999; +1. LcLc12 gamma VECTORISR 0.999999 0.999999; +1. LcLc13 gamma VECTORISR 0.999999 0.999999; +1. LcLc14 gamma VECTORISR 0.999999 0.999999; +1. LcLc15 gamma VECTORISR 0.999999 0.999999; +1. LcLc16 gamma VECTORISR 0.999999 0.999999; +1. LcLc17 gamma VECTORISR 0.999999 0.999999; +1. LcLc18 gamma VECTORISR 0.999999 0.999999; +1. LcLc19 gamma VECTORISR 0.999999 0.999999; +1. LcLc20 gamma VECTORISR 0.999999 0.999999; +1. LcLc21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_LcpKpi_LcCocktail_SP4.dec b/BaBar_2014/ISR_LcpKpi_LcCocktail_SP4.dec new file mode 100644 index 0000000..fe70a30 --- /dev/null +++ b/BaBar_2014/ISR_LcpKpi_LcCocktail_SP4.dec @@ -0,0 +1,307 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 18, 2002 Copyright 2000, 2002 +# +# Produce e+e- -> ISRgamma Lambda_c anti-Lambda_c using VectorISR with +# effective Ecm of 4.6 4.7 4.8 4.9 +# 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.2 6.4 6.5 6.6 6.8 +# 7.0 +# Only 1 Lambda_c or CC is forced to pKpi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## +Alias vphoLcLc vpho +Alias vphoScSc vpho + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias LcLc1 eta_b2(2D) +Alias LcLc2 Upsilon(5S) +Alias LcLc3 chi_b1(2P) +Alias LcLc4 chi_b1(3P) +Alias LcLc5 Upsilon_1(1D) +Alias LcLc6 Upsilon_1(2D) +Alias LcLc7 chi_b1 +Alias LcLc8 Z'0 +Alias LcLc9 Z''0 +Alias LcLc10 R0 +Alias LcLc11 anti-R0 +Alias LcLc12 D*(2S)0 +Alias LcLc13 anti-D*(2S)0 +Alias LcLc14 B*0 +Alias LcLc15 anti-B*0 +Alias LcLc16 B_s*0 +Alias LcLc17 anti-B_s*0 +Alias LcLc18 h_b +Alias LcLc19 h_b(2P) +Alias LcLc20 h_b(3P) +Alias LcLc21 eta_b2(1D) + +Alias ScSc1 eta_b2(2D) +Alias ScSc2 Upsilon(5S) +Alias ScSc3 chi_b1(2P) +Alias ScSc4 chi_b1(3P) +Alias ScSc5 Upsilon_1(1D) +Alias ScSc6 Upsilon_1(2D) +Alias ScSc7 chi_b1 +Alias ScSc8 Z'0 +Alias ScSc9 Z''0 +Alias ScSc10 R0 +Alias ScSc11 anti-R0 +Alias ScSc12 D*(2S)0 +Alias ScSc13 anti-D*(2S)0 +Alias ScSc14 B*0 +Alias ScSc15 anti-B*0 +Alias ScSc16 B_s*0 +Alias ScSc17 anti-B_s*0 +Alias ScSc18 h_b +Alias ScSc19 h_b(2P) +Alias ScSc20 h_b(3P) +Alias ScSc21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle LcLc1 4.6 0. +Particle LcLc2 4.7 0. +Particle LcLc3 4.8 0. +Particle LcLc4 4.9 0. +Particle LcLc5 5.0 0. +Particle LcLc6 5.1 0. +Particle LcLc7 5.2 0. +Particle LcLc8 5.3 0. +Particle LcLc9 5.4 0. +Particle LcLc10 5.5 0. +Particle LcLc11 5.6 0. +Particle LcLc12 5.7 0. +Particle LcLc13 5.8 0. +Particle LcLc14 5.9 0. +Particle LcLc15 6.0 0. +Particle LcLc16 6.2 0. +Particle LcLc17 6.4 0. +Particle LcLc18 6.5 0. +Particle LcLc19 6.6 0. +Particle LcLc20 6.8 0. +Particle LcLc21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +Decay ScSc1 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc2 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc3 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc4 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc5 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc6 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc7 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay LcLc1 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc2 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc3 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc4 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc5 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc6 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc7 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc8 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc9 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc10 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc11 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc12 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc13 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc14 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc15 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc16 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc17 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc18 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc19 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc20 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + +Decay LcLc21 +0.5 Lambda_c+ anti-Lambda_c-_pKpi PHSP; +0.5 Lambda_c+_pKpi anti-Lambda_c- PHSP; +Enddecay + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay vpho +1. LcLc1 gamma VECTORISR 0.999999 0.999999; +1. LcLc2 gamma VECTORISR 0.999999 0.999999; +1. LcLc3 gamma VECTORISR 0.999999 0.999999; +1. LcLc4 gamma VECTORISR 0.999999 0.999999; +1. LcLc5 gamma VECTORISR 0.999999 0.999999; +1. LcLc6 gamma VECTORISR 0.999999 0.999999; +1. LcLc7 gamma VECTORISR 0.999999 0.999999; +1. LcLc8 gamma VECTORISR 0.999999 0.999999; +1. LcLc9 gamma VECTORISR 0.999999 0.999999; +1. LcLc10 gamma VECTORISR 0.999999 0.999999; +1. LcLc11 gamma VECTORISR 0.999999 0.999999; +1. LcLc12 gamma VECTORISR 0.999999 0.999999; +1. LcLc13 gamma VECTORISR 0.999999 0.999999; +1. LcLc14 gamma VECTORISR 0.999999 0.999999; +1. LcLc15 gamma VECTORISR 0.999999 0.999999; +1. LcLc16 gamma VECTORISR 0.999999 0.999999; +1. LcLc17 gamma VECTORISR 0.999999 0.999999; +1. LcLc18 gamma VECTORISR 0.999999 0.999999; +1. LcLc19 gamma VECTORISR 0.999999 0.999999; +1. LcLc20 gamma VECTORISR 0.999999 0.999999; +1. LcLc21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_LcpKpi_LcpKpi_SP4.dec b/BaBar_2014/ISR_LcpKpi_LcpKpi_SP4.dec new file mode 100644 index 0000000..f6c55fe --- /dev/null +++ b/BaBar_2014/ISR_LcpKpi_LcpKpi_SP4.dec @@ -0,0 +1,286 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 18, 2002 Copyright 2000, 2002 +# +# Produce e+e- -> ISRgamma Lambda_c anti-Lambda_c using VectorISR with +# effective Ecm of 4.6 4.7 4.8 4.9 +# 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.2 6.4 6.5 6.6 6.8 +# 7.0 +# Both Lambda_c are forced to pKpi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## +Alias vphoLcLc vpho +Alias vphoScSc vpho + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias LcLc1 eta_b2(2D) +Alias LcLc2 Upsilon(5S) +Alias LcLc3 chi_b1(2P) +Alias LcLc4 chi_b1(3P) +Alias LcLc5 Upsilon_1(1D) +Alias LcLc6 Upsilon_1(2D) +Alias LcLc7 chi_b1 +Alias LcLc8 Z'0 +Alias LcLc9 Z''0 +Alias LcLc10 R0 +Alias LcLc11 anti-R0 +Alias LcLc12 D*(2S)0 +Alias LcLc13 anti-D*(2S)0 +Alias LcLc14 B*0 +Alias LcLc15 anti-B*0 +Alias LcLc16 B_s*0 +Alias LcLc17 anti-B_s*0 +Alias LcLc18 h_b +Alias LcLc19 h_b(2P) +Alias LcLc20 h_b(3P) +Alias LcLc21 eta_b2(1D) + +Alias ScSc1 eta_b2(2D) +Alias ScSc2 Upsilon(5S) +Alias ScSc3 chi_b1(2P) +Alias ScSc4 chi_b1(3P) +Alias ScSc5 Upsilon_1(1D) +Alias ScSc6 Upsilon_1(2D) +Alias ScSc7 chi_b1 +Alias ScSc8 Z'0 +Alias ScSc9 Z''0 +Alias ScSc10 R0 +Alias ScSc11 anti-R0 +Alias ScSc12 D*(2S)0 +Alias ScSc13 anti-D*(2S)0 +Alias ScSc14 B*0 +Alias ScSc15 anti-B*0 +Alias ScSc16 B_s*0 +Alias ScSc17 anti-B_s*0 +Alias ScSc18 h_b +Alias ScSc19 h_b(2P) +Alias ScSc20 h_b(3P) +Alias ScSc21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle LcLc1 4.6 0. +Particle LcLc2 4.7 0. +Particle LcLc3 4.8 0. +Particle LcLc4 4.9 0. +Particle LcLc5 5.0 0. +Particle LcLc6 5.1 0. +Particle LcLc7 5.2 0. +Particle LcLc8 5.3 0. +Particle LcLc9 5.4 0. +Particle LcLc10 5.5 0. +Particle LcLc11 5.6 0. +Particle LcLc12 5.7 0. +Particle LcLc13 5.8 0. +Particle LcLc14 5.9 0. +Particle LcLc15 6.0 0. +Particle LcLc16 6.2 0. +Particle LcLc17 6.4 0. +Particle LcLc18 6.5 0. +Particle LcLc19 6.6 0. +Particle LcLc20 6.8 0. +Particle LcLc21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +Decay ScSc1 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc2 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc3 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc4 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc5 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc6 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay ScSc7 +0.5 Sigma_c+ anti-Sigma_c- PHSP; +0.5 Sigma_c0 anti-Sigma_c0 PHSP; +Enddecay + +Decay LcLc1 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc2 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc3 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc4 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc5 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc6 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc7 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc8 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc9 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc10 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc11 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc12 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc13 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc14 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc15 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc16 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc17 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc18 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc19 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc20 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + +Decay LcLc21 +1.0 Lambda_c+_pKpi anti-Lambda_c-_pKpi PHSP; +Enddecay + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay vpho +1. LcLc1 gamma VECTORISR 0.999999 0.999999; +1. LcLc2 gamma VECTORISR 0.999999 0.999999; +1. LcLc3 gamma VECTORISR 0.999999 0.999999; +1. LcLc4 gamma VECTORISR 0.999999 0.999999; +1. LcLc5 gamma VECTORISR 0.999999 0.999999; +1. LcLc6 gamma VECTORISR 0.999999 0.999999; +1. LcLc7 gamma VECTORISR 0.999999 0.999999; +1. LcLc8 gamma VECTORISR 0.999999 0.999999; +1. LcLc9 gamma VECTORISR 0.999999 0.999999; +1. LcLc10 gamma VECTORISR 0.999999 0.999999; +1. LcLc11 gamma VECTORISR 0.999999 0.999999; +1. LcLc12 gamma VECTORISR 0.999999 0.999999; +1. LcLc13 gamma VECTORISR 0.999999 0.999999; +1. LcLc14 gamma VECTORISR 0.999999 0.999999; +1. LcLc15 gamma VECTORISR 0.999999 0.999999; +1. LcLc16 gamma VECTORISR 0.999999 0.999999; +1. LcLc17 gamma VECTORISR 0.999999 0.999999; +1. LcLc18 gamma VECTORISR 0.999999 0.999999; +1. LcLc19 gamma VECTORISR 0.999999 0.999999; +1. LcLc20 gamma VECTORISR 0.999999 0.999999; +1. LcLc21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_SigcCocktail_SigcCocktail_SP4.dec b/BaBar_2014/ISR_SigcCocktail_SigcCocktail_SP4.dec new file mode 100644 index 0000000..e2491fd --- /dev/null +++ b/BaBar_2014/ISR_SigcCocktail_SigcCocktail_SP4.dec @@ -0,0 +1,540 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 20, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma Sigma_c(*) anti-Sigma_c(*) using VectorISR with +# effective Ecm of 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Take ratio of Sc,antiSc:(Sc,antiSc* + Sc*,antiSc):Sc*,antiSc* = 1:2:4, energy permitting +# +# Need 5.1 GeV to make a Sc* antiSc* +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# Both Lambda_c decay to Cocktail +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## +Alias vphoLcLc vpho +Alias vphoScSc vpho + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias LcLc1 eta_b2(2D) +Alias LcLc2 Upsilon(5S) +Alias LcLc3 chi_b1(2P) +Alias LcLc4 chi_b1(3P) +Alias LcLc5 Upsilon_1(1D) +Alias LcLc6 Upsilon_1(2D) +Alias LcLc7 chi_b1 +Alias LcLc8 Z'0 +Alias LcLc9 Z''0 +Alias LcLc10 R0 +Alias LcLc11 anti-R0 +Alias LcLc12 D*(2S)0 +Alias LcLc13 anti-D*(2S)0 +Alias LcLc14 B*0 +Alias LcLc15 anti-B*0 +Alias LcLc16 B_s*0 +Alias LcLc17 anti-B_s*0 +Alias LcLc18 h_b +Alias LcLc19 h_b(2P) +Alias LcLc20 h_b(3P) +Alias LcLc21 eta_b2(1D) + +Alias ScSc1 eta_b2(2D) +Alias ScSc2 Upsilon(5S) +Alias ScSc3 chi_b1(2P) +Alias ScSc4 chi_b1(3P) +Alias ScSc5 Upsilon_1(1D) +Alias ScSc6 Upsilon_1(2D) +Alias ScSc7 chi_b1 +Alias ScSc8 Z'0 +Alias ScSc9 Z''0 +Alias ScSc10 R0 +Alias ScSc11 anti-R0 +Alias ScSc12 D*(2S)0 +Alias ScSc13 anti-D*(2S)0 +Alias ScSc14 B*0 +Alias ScSc15 anti-B*0 +Alias ScSc16 B_s*0 +Alias ScSc17 anti-B_s*0 +Alias ScSc18 h_b +Alias ScSc19 h_b(2P) +Alias ScSc20 h_b(3P) +Alias ScSc21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle ScSc1 5.0 0. +Particle ScSc2 5.1 0. +Particle ScSc3 5.2 0. +Particle ScSc4 5.3 0. +Particle ScSc5 5.4 0. +Particle ScSc6 5.5 0. +Particle ScSc7 5.6 0. +Particle ScSc8 5.7 0. +Particle ScSc9 5.8 0. +Particle ScSc10 5.9 0. +Particle ScSc11 6.0 0. +Particle ScSc12 6.1 0. +Particle ScSc13 6.2 0. +Particle ScSc14 6.3 0. +Particle ScSc15 6.4 0. +Particle ScSc16 6.5 0. +Particle ScSc17 6.6 0. +Particle ScSc18 6.7 0. +Particle ScSc19 6.8 0. +Particle ScSc20 6.9 0. +Particle ScSc21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +Decay ScSc1 +0.1111 Sigma_c++ anti-Sigma_c-- PHSP; +0.1111 Sigma_c+ anti-Sigma_c- PHSP; +0.1111 Sigma_c0 anti-Sigma_c0 PHSP; +0.1111 Sigma_c*++ anti-Sigma_c-- PHSP; +0.1111 Sigma_c*+ anti-Sigma_c- PHSP; +0.1111 Sigma_c*0 anti-Sigma_c0 PHSP; +0.1111 Sigma_c++ anti-Sigma_c*-- PHSP; +0.1111 Sigma_c+ anti-Sigma_c*- PHSP; +0.1111 Sigma_c0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc2 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc3 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc4 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc5 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc6 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc7 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc8 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc9 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc10 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc11 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc12 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc13 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc14 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc15 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc16 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc17 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc18 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc19 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc20 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc21 +1.0 Sigma_c++ anti-Sigma_c-- PHSP; +1.0 Sigma_c+ anti-Sigma_c- PHSP; +1.0 Sigma_c0 anti-Sigma_c0 PHSP; +1.0 Sigma_c*++ anti-Sigma_c-- PHSP; +1.0 Sigma_c*+ anti-Sigma_c- PHSP; +1.0 Sigma_c*0 anti-Sigma_c0 PHSP; +1.0 Sigma_c++ anti-Sigma_c*-- PHSP; +1.0 Sigma_c+ anti-Sigma_c*- PHSP; +1.0 Sigma_c0 anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++ anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+ anti-Sigma_c*- PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0 PHSP; +Enddecay + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + + +Decay vpho +1. ScSc1 gamma VECTORISR 0.999999 0.999999; +1. ScSc2 gamma VECTORISR 0.999999 0.999999; +1. ScSc3 gamma VECTORISR 0.999999 0.999999; +1. ScSc4 gamma VECTORISR 0.999999 0.999999; +1. ScSc5 gamma VECTORISR 0.999999 0.999999; +1. ScSc6 gamma VECTORISR 0.999999 0.999999; +1. ScSc7 gamma VECTORISR 0.999999 0.999999; +1. ScSc8 gamma VECTORISR 0.999999 0.999999; +1. ScSc9 gamma VECTORISR 0.999999 0.999999; +1. ScSc10 gamma VECTORISR 0.999999 0.999999; +1. ScSc11 gamma VECTORISR 0.999999 0.999999; +1. ScSc12 gamma VECTORISR 0.999999 0.999999; +1. ScSc13 gamma VECTORISR 0.999999 0.999999; +1. ScSc14 gamma VECTORISR 0.999999 0.999999; +1. ScSc15 gamma VECTORISR 0.999999 0.999999; +1. ScSc16 gamma VECTORISR 0.999999 0.999999; +1. ScSc17 gamma VECTORISR 0.999999 0.999999; +1. ScSc18 gamma VECTORISR 0.999999 0.999999; +1. ScSc19 gamma VECTORISR 0.999999 0.999999; +1. ScSc20 gamma VECTORISR 0.999999 0.999999; +1. ScSc21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_SigcpKpi_SigcCocktail_SP4.dec b/BaBar_2014/ISR_SigcpKpi_SigcCocktail_SP4.dec new file mode 100644 index 0000000..b66dfc0 --- /dev/null +++ b/BaBar_2014/ISR_SigcpKpi_SigcCocktail_SP4.dec @@ -0,0 +1,811 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 20, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma Sigma_c(*) anti-Sigma_c(*) using VectorISR with +# effective Ecm of 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Take ratio of Sc,antiSc:(Sc,antiSc* + Sc*,antiSc):Sc*,antiSc* = 1:2:4, energy permitting +# +# Need 5.1 GeV to make a Sc* antiSc* +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# One Lambda_c is forced to pKpi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## +Alias vphoLcLc vpho +Alias vphoScSc vpho + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias LcLc1 eta_b2(2D) +Alias LcLc2 Upsilon(5S) +Alias LcLc3 chi_b1(2P) +Alias LcLc4 chi_b1(3P) +Alias LcLc5 Upsilon_1(1D) +Alias LcLc6 Upsilon_1(2D) +Alias LcLc7 chi_b1 +Alias LcLc8 Z'0 +Alias LcLc9 Z''0 +Alias LcLc10 R0 +Alias LcLc11 anti-R0 +Alias LcLc12 D*(2S)0 +Alias LcLc13 anti-D*(2S)0 +Alias LcLc14 B*0 +Alias LcLc15 anti-B*0 +Alias LcLc16 B_s*0 +Alias LcLc17 anti-B_s*0 +Alias LcLc18 h_b +Alias LcLc19 h_b(2P) +Alias LcLc20 h_b(3P) +Alias LcLc21 eta_b2(1D) + +Alias ScSc1 eta_b2(2D) +Alias ScSc2 Upsilon(5S) +Alias ScSc3 chi_b1(2P) +Alias ScSc4 chi_b1(3P) +Alias ScSc5 Upsilon_1(1D) +Alias ScSc6 Upsilon_1(2D) +Alias ScSc7 chi_b1 +Alias ScSc8 Z'0 +Alias ScSc9 Z''0 +Alias ScSc10 R0 +Alias ScSc11 anti-R0 +Alias ScSc12 D*(2S)0 +Alias ScSc13 anti-D*(2S)0 +Alias ScSc14 B*0 +Alias ScSc15 anti-B*0 +Alias ScSc16 B_s*0 +Alias ScSc17 anti-B_s*0 +Alias ScSc18 h_b +Alias ScSc19 h_b(2P) +Alias ScSc20 h_b(3P) +Alias ScSc21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle ScSc1 5.0 0. +Particle ScSc2 5.1 0. +Particle ScSc3 5.2 0. +Particle ScSc4 5.3 0. +Particle ScSc5 5.4 0. +Particle ScSc6 5.5 0. +Particle ScSc7 5.6 0. +Particle ScSc8 5.7 0. +Particle ScSc9 5.8 0. +Particle ScSc10 5.9 0. +Particle ScSc11 6.0 0. +Particle ScSc12 6.1 0. +Particle ScSc13 6.2 0. +Particle ScSc14 6.3 0. +Particle ScSc15 6.4 0. +Particle ScSc16 6.5 0. +Particle ScSc17 6.6 0. +Particle ScSc18 6.7 0. +Particle ScSc19 6.8 0. +Particle ScSc20 6.9 0. +Particle ScSc21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +Decay ScSc1 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc2 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc3 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc4 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc5 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc6 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc7 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc8 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc9 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc10 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc11 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc12 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc13 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc14 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc15 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc16 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc17 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc18 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc19 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc20 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + +Decay ScSc21 +1.0 Sigma_c++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++ anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+ anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0 anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++ anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+ anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0 anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++ anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+ anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0 anti-Sigma_c*0_pKpi PHSP; + +1.0 Sigma_c++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c-- PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c- PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0 PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*-- PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*- PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0 PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*-- PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*- PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0 PHSP; +Enddecay + + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + + +Decay vpho +1. ScSc1 gamma VECTORISR 0.999999 0.999999; +1. ScSc2 gamma VECTORISR 0.999999 0.999999; +1. ScSc3 gamma VECTORISR 0.999999 0.999999; +1. ScSc4 gamma VECTORISR 0.999999 0.999999; +1. ScSc5 gamma VECTORISR 0.999999 0.999999; +1. ScSc6 gamma VECTORISR 0.999999 0.999999; +1. ScSc7 gamma VECTORISR 0.999999 0.999999; +1. ScSc8 gamma VECTORISR 0.999999 0.999999; +1. ScSc9 gamma VECTORISR 0.999999 0.999999; +1. ScSc10 gamma VECTORISR 0.999999 0.999999; +1. ScSc11 gamma VECTORISR 0.999999 0.999999; +1. ScSc12 gamma VECTORISR 0.999999 0.999999; +1. ScSc13 gamma VECTORISR 0.999999 0.999999; +1. ScSc14 gamma VECTORISR 0.999999 0.999999; +1. ScSc15 gamma VECTORISR 0.999999 0.999999; +1. ScSc16 gamma VECTORISR 0.999999 0.999999; +1. ScSc17 gamma VECTORISR 0.999999 0.999999; +1. ScSc18 gamma VECTORISR 0.999999 0.999999; +1. ScSc19 gamma VECTORISR 0.999999 0.999999; +1. ScSc20 gamma VECTORISR 0.999999 0.999999; +1. ScSc21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_SigcpKpi_SigcpKpi_SP4.dec b/BaBar_2014/ISR_SigcpKpi_SigcpKpi_SP4.dec new file mode 100644 index 0000000..1ad485d --- /dev/null +++ b/BaBar_2014/ISR_SigcpKpi_SigcpKpi_SP4.dec @@ -0,0 +1,540 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 20, 2002 Copyright 2002 +# +# Produce e+e- -> ISRgamma Sigma_c(*) anti-Sigma_c(*) using VectorISR with +# effective Ecm of 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 +# 6.0 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 +# 7.0 +# +# Take ratio of Sc,antiSc:(Sc,antiSc* + Sc*,antiSc):Sc*,antiSc* = 1:2:4, energy permitting +# +# Need 5.1 GeV to make a Sc* antiSc* +# +# All Sigma_c and Sigma_c* -> pi Lamda_c 100% +# In SP4, all Sigma_c and Sigma_c* have 0 width. +# Both Lambda_c are forced to pKpi +# +# For SP4: +# Anticipates a bug in EvtGen decay of forced Lambda(1520)0 decay (see note below) +# This should be resolved for SP5, so this file will need to be rewritten +# Be sure to run with a generator level filter such as +# ProdDecayFiles/one_Lc_pKpi_SP4.tcl, two_Lc_pKpi_SP4.tcl, zero_Lc_pKpi_SP4.tcl +# which will catch phony decays created to avoid an assert. +# +############################################################################### +# +# +######## +Alias vphoLcLc vpho +Alias vphoScSc vpho + +#Alias of all redefinable vector particles with no max_Dm in PDT/pdt.table +Alias LcLc1 eta_b2(2D) +Alias LcLc2 Upsilon(5S) +Alias LcLc3 chi_b1(2P) +Alias LcLc4 chi_b1(3P) +Alias LcLc5 Upsilon_1(1D) +Alias LcLc6 Upsilon_1(2D) +Alias LcLc7 chi_b1 +Alias LcLc8 Z'0 +Alias LcLc9 Z''0 +Alias LcLc10 R0 +Alias LcLc11 anti-R0 +Alias LcLc12 D*(2S)0 +Alias LcLc13 anti-D*(2S)0 +Alias LcLc14 B*0 +Alias LcLc15 anti-B*0 +Alias LcLc16 B_s*0 +Alias LcLc17 anti-B_s*0 +Alias LcLc18 h_b +Alias LcLc19 h_b(2P) +Alias LcLc20 h_b(3P) +Alias LcLc21 eta_b2(1D) + +Alias ScSc1 eta_b2(2D) +Alias ScSc2 Upsilon(5S) +Alias ScSc3 chi_b1(2P) +Alias ScSc4 chi_b1(3P) +Alias ScSc5 Upsilon_1(1D) +Alias ScSc6 Upsilon_1(2D) +Alias ScSc7 chi_b1 +Alias ScSc8 Z'0 +Alias ScSc9 Z''0 +Alias ScSc10 R0 +Alias ScSc11 anti-R0 +Alias ScSc12 D*(2S)0 +Alias ScSc13 anti-D*(2S)0 +Alias ScSc14 B*0 +Alias ScSc15 anti-B*0 +Alias ScSc16 B_s*0 +Alias ScSc17 anti-B_s*0 +Alias ScSc18 h_b +Alias ScSc19 h_b(2P) +Alias ScSc20 h_b(3P) +Alias ScSc21 eta_b2(1D) + +Alias Lambda_c+_pKpi Lambda_c+ +Alias anti-Lambda_c-_pKpi anti-Lambda_c- +ChargeConj Lambda_c+_pKpi anti-Lambda_c-_pKpi + +Alias Sigma_c0_pKpi Sigma_c0 +Alias anti-Sigma_c0_pKpi anti-Sigma_c0 +ChargeConj Sigma_c0_pKpi anti-Sigma_c0_pKpi + +Alias Sigma_c+_pKpi Sigma_c+ +Alias anti-Sigma_c-_pKpi anti-Sigma_c- +ChargeConj Sigma_c+_pKpi anti-Sigma_c-_pKpi + +Alias Sigma_c++_pKpi Sigma_c++ +Alias anti-Sigma_c--_pKpi anti-Sigma_c-- +ChargeConj Sigma_c++_pKpi anti-Sigma_c--_pKpi + +Alias Sigma_c*0_pKpi Sigma_c*0 +Alias anti-Sigma_c*0_pKpi anti-Sigma_c*0 +ChargeConj Sigma_c*0_pKpi anti-Sigma_c*0_pKpi + +Alias Sigma_c*+_pKpi Sigma_c*+ +Alias anti-Sigma_c*-_pKpi anti-Sigma_c*- +ChargeConj Sigma_c*+_pKpi anti-Sigma_c*-_pKpi + +Alias Sigma_c*++_pKpi Sigma_c*++ +Alias anti-Sigma_c*--_pKpi anti-Sigma_c*-- +ChargeConj Sigma_c*++_pKpi anti-Sigma_c*--_pKpi + +Alias K*0_Kpi K*0 +Alias anti-K*0_Kpi anti-K*0 +ChargeConj K*0_Kpi anti-K*0_Kpi + +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +# Change particle masses and widths +Particle ScSc1 5.0 0. +Particle ScSc2 5.1 0. +Particle ScSc3 5.2 0. +Particle ScSc4 5.3 0. +Particle ScSc5 5.4 0. +Particle ScSc6 5.5 0. +Particle ScSc7 5.6 0. +Particle ScSc8 5.7 0. +Particle ScSc9 5.8 0. +Particle ScSc10 5.9 0. +Particle ScSc11 6.0 0. +Particle ScSc12 6.1 0. +Particle ScSc13 6.2 0. +Particle ScSc14 6.3 0. +Particle ScSc15 6.4 0. +Particle ScSc16 6.5 0. +Particle ScSc17 6.6 0. +Particle ScSc18 6.7 0. +Particle ScSc19 6.8 0. +Particle ScSc20 6.9 0. +Particle ScSc21 7.0 0. + +#Decay of JP = 1- to 2 spin 1/2, P = + states must have orb ang L=1 to conserve parity + +Decay ScSc1 +0.1111 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +0.1111 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +0.1111 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +0.1111 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +0.1111 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +0.1111 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +0.1111 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +0.1111 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +0.1111 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc2 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc3 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc4 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc5 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc6 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc7 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc8 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc9 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc10 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc11 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc12 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc13 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc14 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc15 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc16 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc17 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc18 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc19 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc20 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + +Decay ScSc21 +1.0 Sigma_c++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c*++_pKpi anti-Sigma_c--_pKpi PHSP; +1.0 Sigma_c*+_pKpi anti-Sigma_c-_pKpi PHSP; +1.0 Sigma_c*0_pKpi anti-Sigma_c0_pKpi PHSP; +1.0 Sigma_c++_pKpi anti-Sigma_c*--_pKpi PHSP; +1.0 Sigma_c+_pKpi anti-Sigma_c*-_pKpi PHSP; +1.0 Sigma_c0_pKpi anti-Sigma_c*0_pKpi PHSP; +4.0 Sigma_c*++_pKpi anti-Sigma_c*--_pKpi PHSP; +4.0 Sigma_c*+_pKpi anti-Sigma_c*-_pKpi PHSP; +4.0 Sigma_c*0_pKpi anti-Sigma_c*0_pKpi PHSP; +Enddecay + + +# Forced decays of Lc daughters leading to a pKpi final state + +Decay K*0_Kpi +0.6657 K+ pi- VSS; +Enddecay +CDecay anti-K*0_Kpi + +# There is an EvtGen bug which will crash pK if the 1520 mass is too low +# give it an excape valve mode which is removed by an event level filter +# The excape valve is used for (2.82 +/- 0.01)% of the time +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +0.000001 nu_e nu_tau PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP4 +Decay Lambda_c+_pKpi +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0_Kpi PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +# SP4: Lambda(1520) decay will abort 2.82% of time so increase BF to compensate +#Use a generator level filter to remove the aborts which have nu_tau +#0.0059 Lambda(1520)0_pK pi+ PHSP; +0.00607 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay anti-Lambda_c-_pKpi + +Decay Sigma_c0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c0_pKpi + +Decay Sigma_c+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c-_pKpi + +Decay Sigma_c++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c--_pKpi + +Decay Sigma_c*0_pKpi +1.0000 Lambda_c+_pKpi pi- PHSP; +Enddecay +CDecay anti-Sigma_c*0_pKpi + +Decay Sigma_c*+_pKpi +1.0000 Lambda_c+_pKpi pi0 PHSP; +Enddecay +CDecay anti-Sigma_c*-_pKpi + +Decay Sigma_c*++_pKpi +1.0000 Lambda_c+_pKpi pi+ PHSP; +Enddecay +CDecay anti-Sigma_c*--_pKpi + + +Decay vpho +1. ScSc1 gamma VECTORISR 0.999999 0.999999; +1. ScSc2 gamma VECTORISR 0.999999 0.999999; +1. ScSc3 gamma VECTORISR 0.999999 0.999999; +1. ScSc4 gamma VECTORISR 0.999999 0.999999; +1. ScSc5 gamma VECTORISR 0.999999 0.999999; +1. ScSc6 gamma VECTORISR 0.999999 0.999999; +1. ScSc7 gamma VECTORISR 0.999999 0.999999; +1. ScSc8 gamma VECTORISR 0.999999 0.999999; +1. ScSc9 gamma VECTORISR 0.999999 0.999999; +1. ScSc10 gamma VECTORISR 0.999999 0.999999; +1. ScSc11 gamma VECTORISR 0.999999 0.999999; +1. ScSc12 gamma VECTORISR 0.999999 0.999999; +1. ScSc13 gamma VECTORISR 0.999999 0.999999; +1. ScSc14 gamma VECTORISR 0.999999 0.999999; +1. ScSc15 gamma VECTORISR 0.999999 0.999999; +1. ScSc16 gamma VECTORISR 0.999999 0.999999; +1. ScSc17 gamma VECTORISR 0.999999 0.999999; +1. ScSc18 gamma VECTORISR 0.999999 0.999999; +1. ScSc19 gamma VECTORISR 0.999999 0.999999; +1. ScSc20 gamma VECTORISR 0.999999 0.999999; +1. ScSc21 gamma VECTORISR 0.999999 0.999999; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_aliases_v2.dec b/BaBar_2014/ISR_aliases_v2.dec new file mode 100644 index 0000000..6cf7a26 --- /dev/null +++ b/BaBar_2014/ISR_aliases_v2.dec @@ -0,0 +1,7482 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliases_v3.dec b/BaBar_2014/ISR_aliases_v3.dec new file mode 100644 index 0000000..8b2d975 --- /dev/null +++ b/BaBar_2014/ISR_aliases_v3.dec @@ -0,0 +1,8194 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliases_vph124_ds9008_ds9000.dec b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9000.dec new file mode 100644 index 0000000..a9d0600 --- /dev/null +++ b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9000.dec @@ -0,0 +1,5627 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# Ds1 Mode 9008 100% loose hadronic tags by branching fraction +# Ds2 Mode 9000 100% generic cocktail + +# Loose hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, + +# Clean hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K + +Decay vpho +1.0 vphoton124 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9008 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End + diff --git a/BaBar_2014/ISR_aliases_vph124_ds9008_ds9003.dec b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9003.dec new file mode 100644 index 0000000..d14a5b0 --- /dev/null +++ b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9003.dec @@ -0,0 +1,5626 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# Ds1 Mode 9008 100% loose hadronic tags by branching fraction +# Ds2 Mode 9003 100% semileptonic 1 prongs + +# Loose hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, + + + +Decay vpho +1.0 vphoton124 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9008 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9003 PHSP; +Enddecay +CDecay D_s-2 + +End + diff --git a/BaBar_2014/ISR_aliases_vph124_ds9008_ds9007.dec b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9007.dec new file mode 100644 index 0000000..31949ea --- /dev/null +++ b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9007.dec @@ -0,0 +1,5627 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# Ds1 Mode 9008 100% loose hadronic tags by branching fraction +# Ds2 Mode 9007 100% clean hadronic tags by branching fraction + +# Loose hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, + +# Clean hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K + +Decay vpho +1.0 vphoton124 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9008 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9007 PHSP; +Enddecay +CDecay D_s-2 + +End + diff --git a/BaBar_2014/ISR_aliases_vph124_ds9008_ds9009.dec b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9009.dec new file mode 100644 index 0000000..3d870f5 --- /dev/null +++ b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9009.dec @@ -0,0 +1,5626 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# Ds1 Mode 9008 100% loose hadronic tags by branching fraction +# Ds2 Mode 9009 100% semileptonic multi prongs + +# Loose hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, + + + +Decay vpho +1.0 vphoton124 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9008 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9009 PHSP; +Enddecay +CDecay D_s-2 + +End + diff --git a/BaBar_2014/ISR_aliases_vph124_ds9008_ds9010.dec b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9010.dec new file mode 100644 index 0000000..154a03d --- /dev/null +++ b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9010.dec @@ -0,0 +1,5626 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# Ds1 Mode 9008 100% loose hadronic tags by branching fraction +# Ds2 Mode 9010 100% leptonic 1 prongs + +# Loose hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, + + + +Decay vpho +1.0 vphoton124 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9008 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9010 PHSP; +Enddecay +CDecay D_s-2 + +End + diff --git a/BaBar_2014/ISR_aliases_vph124_ds9008_ds9011.dec b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9011.dec new file mode 100644 index 0000000..811322b --- /dev/null +++ b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9011.dec @@ -0,0 +1,5626 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# Ds1 Mode 9008 100% loose hadronic tags by branching fraction +# Ds2 Mode 9011 100% leptonic multi prongs + +# Loose hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, + + + +Decay vpho +1.0 vphoton124 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9008 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9011 PHSP; +Enddecay +CDecay D_s-2 + +End + diff --git a/BaBar_2014/ISR_aliases_vph124_ds9008_ds9013.dec b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9013.dec new file mode 100644 index 0000000..1361720 --- /dev/null +++ b/BaBar_2014/ISR_aliases_vph124_ds9008_ds9013.dec @@ -0,0 +1,5626 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# Ds1 Mode 9008 100% loose hadronic tags by branching fraction +# Ds2 Mode 9013 100% K0 K, K0->all neutrals + +# Loose hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, + + + +Decay vpho +1.0 vphoton124 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9008 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9013 PHSP; +Enddecay +CDecay D_s-2 + +End + diff --git a/BaBar_2014/ISR_aliasv2_vph134_dc9100mdo9200_dc9100mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph134_dc9100mdo9200_dc9100mdo9200.dec new file mode 100644 index 0000000..4e708be --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph134_dc9100mdo9200_dc9100mdo9200.dec @@ -0,0 +1,7499 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 134 D*+D*- 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 50% D0, 50% D+/- +# +# D+/-1 Mode 9100 cocktail +# D0_1 Mode 9200 cocktail +# D+/-2 Mode 9100 cocktail +# D0_2 Mode 9200 cocktail +# +####################################################################################### +Decay vpho +1.0 vphoton134 PHSP; +Enddecay + +Decay D+1 +1.0 D+9100 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph134_dc9101mdo9201_dc9100mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph134_dc9101mdo9201_dc9100mdo9200.dec new file mode 100644 index 0000000..b3b395b --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph134_dc9101mdo9201_dc9100mdo9200.dec @@ -0,0 +1,7499 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 134 D*+D*- 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 50% D0, 50% D+/- +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9100 cocktail +# D0_2 Mode 9200 cocktail +# +####################################################################################### +Decay vpho +1.0 vphoton134 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph134_dc9101mdo9201_dc9101mdo9201.dec b/BaBar_2014/ISR_aliasv2_vph134_dc9101mdo9201_dc9101mdo9201.dec new file mode 100644 index 0000000..12d3e80 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph134_dc9101mdo9201_dc9101mdo9201.dec @@ -0,0 +1,7499 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 134 D*+D*- 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 50% D0, 50% D+/- +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# +####################################################################################### +Decay vpho +1.0 vphoton134 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph135_dc9101mdo9201_dc8001.dec b/BaBar_2014/ISR_aliasv2_vph135_dc9101mdo9201_dc8001.dec new file mode 100644 index 0000000..b2962c7 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph135_dc9101mdo9201_dc8001.dec @@ -0,0 +1,7494 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 135 D*+D*- 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 0% D0, 100% D+/- +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 8001 D+ -> mu nu +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton135 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+8001 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph135_dc9101mdo9201_dc9104.dec b/BaBar_2014/ISR_aliasv2_vph135_dc9101mdo9201_dc9104.dec new file mode 100644 index 0000000..d1be7e2 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph135_dc9101mdo9201_dc9104.dec @@ -0,0 +1,7494 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 135 D*+D*- 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 0% D0, 100% D+/- +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9104 D+ -> semimuonic cocktail, enhanced tau nu (tau ->e/mu nu nu) +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton135 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9104 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph136_do9200_do9200.dec b/BaBar_2014/ISR_aliasv2_vph136_do9200_do9200.dec new file mode 100644 index 0000000..69d40bd --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph136_do9200_do9200.dec @@ -0,0 +1,7489 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 136 D*0D*0 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# D+/-1 Mode N/A +# D0_1 Mode 9201 cocktail +# D+/-2 Mode N/A +# D0_2 Mode 9200 cocktail +# +####################################################################################### +Decay vpho +1.0 vphoton136 PHSP; +Enddecay + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph136_do9201_do9200.dec b/BaBar_2014/ISR_aliasv2_vph136_do9201_do9200.dec new file mode 100644 index 0000000..b4a42db --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph136_do9201_do9200.dec @@ -0,0 +1,7489 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 136 D*0D*0 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# D+/-1 Mode N/A +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode N/A +# D0_2 Mode 9200 cocktail +# +####################################################################################### +Decay vpho +1.0 vphoton136 PHSP; +Enddecay + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph136_do9201_do9201.dec b/BaBar_2014/ISR_aliasv2_vph136_do9201_do9201.dec new file mode 100644 index 0000000..04a44d1 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph136_do9201_do9201.dec @@ -0,0 +1,7489 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 136 D*0D*0 1 : 2 : 3 +# (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# D+/-1 Mode N/A +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode N/A +# D0_2 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# +####################################################################################### +Decay vpho +1.0 vphoton136 PHSP; +Enddecay + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph137_dc9100mdo9200_dc9100.dec b/BaBar_2014/ISR_aliasv2_vph137_dc9100mdo9200_dc9100.dec new file mode 100644 index 0000000..549d707 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph137_dc9100mdo9200_dc9100.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 137 D*+D- 1 : 1 : 1 +# +# D*1 cocktail +# +# D+/-1 Mode 9100 cocktail +# D0_1 Mode 9200 cocktail +# D+/-2 Mode 9100 cocktail +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton137 PHSP; +Enddecay + +Decay D+1 +1.0 D+9100 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph137_dc9100mdo9200_dc9101.dec b/BaBar_2014/ISR_aliasv2_vph137_dc9100mdo9200_dc9101.dec new file mode 100644 index 0000000..6046aa5 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph137_dc9100mdo9200_dc9101.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 137 D*+D- 1 : 1 : 1 +# +# D*1 cocktail +# +# D+/-1 Mode 9100 cocktail +# D0_1 Mode 9200 cocktail +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton137 PHSP; +Enddecay + +Decay D+1 +1.0 D+9100 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph137_dc9101mdo9201_dc9100.dec b/BaBar_2014/ISR_aliasv2_vph137_dc9101mdo9201_dc9100.dec new file mode 100644 index 0000000..94596e2 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph137_dc9101mdo9201_dc9100.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 137 D*+D- 1 : 1 : 1 +# +# D*1 cocktail +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9100 cocktail +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton137 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph137_dc9101mdo9201_dc9101.dec b/BaBar_2014/ISR_aliasv2_vph137_dc9101mdo9201_dc9101.dec new file mode 100644 index 0000000..420a187 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph137_dc9101mdo9201_dc9101.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 137 D*+D- 1 : 1 : 1 +# +# D*1 cocktail +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton137 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph138_dc8001_dc9101.dec b/BaBar_2014/ISR_aliasv2_vph138_dc8001_dc9101.dec new file mode 100644 index 0000000..a8bb67e --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph138_dc8001_dc9101.dec @@ -0,0 +1,7487 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 138 D*+D- 1 : 1 : 1 +# +# D*1 100% D+/- +# +# D+/-1 Mode 8001 D+ -> mu nu +# D0_1 Mode N/A +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton138 PHSP; +Enddecay + +Decay D+1 +1.0 D+8001 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph138_dc9104_dc9101.dec b/BaBar_2014/ISR_aliasv2_vph138_dc9104_dc9101.dec new file mode 100644 index 0000000..7eef9ed --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph138_dc9104_dc9101.dec @@ -0,0 +1,7487 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 138 D*+D- 1 : 1 : 1 +# +# D*1 100% D+/- +# +# D+/-1 Mode 9104 D+ -> semimuonic cocktail, enhanced tau nu (tau ->e/mu nu nu) +# D0_1 Mode N/A +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode N/A +# +####################################################################################### +Decay vpho +1.0 vphoton138 PHSP; +Enddecay + +Decay D+1 +1.0 D+9104 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph139_do9200mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph139_do9200mdo9200.dec new file mode 100644 index 0000000..a294ecb --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph139_do9200mdo9200.dec @@ -0,0 +1,7488 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 139 D*0D0 1 : 1 : 1 +# +# D*1 cocktail +# +# D+/-1 Mode N/A +# D+/-2 Mode N/A +# +# D0_1 Mode 9200 cocktail +# D0_2 Mode 9200 cocktail +# +####################################################################################### +Decay vpho +1.0 vphoton139 PHSP; +Enddecay + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph139_do9201mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph139_do9201mdo9200.dec new file mode 100644 index 0000000..d30c3a5 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph139_do9201mdo9200.dec @@ -0,0 +1,7489 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 139 D*0D0 1 : 1 : 1 +# +# D*1 cocktail +# +# D+/-1 Mode N/A +# D+/-2 Mode N/A +# +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D0_2 Mode 9200 cocktail +# Tag is on D*0/D0 side 50%/50% of time +# +####################################################################################### +Decay vpho +1.0 vphoton139 PHSP; +Enddecay + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph139_do9201mdo9201.dec b/BaBar_2014/ISR_aliasv2_vph139_do9201mdo9201.dec new file mode 100644 index 0000000..5943804 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph139_do9201mdo9201.dec @@ -0,0 +1,7487 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 139 D*0D0 1 : 1 : 1 +# +# D*1 cocktail +# +# D+/-1 Mode N/A +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode N/A +# D0_2 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# +####################################################################################### +Decay vpho +1.0 vphoton139 PHSP; +Enddecay + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph140_dc9100mdo9200_dc9100mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph140_dc9100mdo9200_dc9100mdo9200.dec new file mode 100644 index 0000000..7870a0e --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph140_dc9100mdo9200_dc9100mdo9200.dec @@ -0,0 +1,7496 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 3770 4040 4160 4415 +# Vphoton Mode 140 50% D+D- 2 : 1 : 1 : 1 +# 50% D0D0 2 : 1 : 1 : 1 +# +# D+/-1 Mode 9100 cocktail +# D0_1 Mode 9200 cocktail +# D+/-2 Mode 9100 cocktail +# D0_2 Mode 9200 cocktail +# +####################################################################################### +Decay vpho +1.0 vphoton140 PHSP; +Enddecay + +Decay D+1 +1.0 D+9100 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph140_dc9101mdo9201_dc9100mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph140_dc9101mdo9201_dc9100mdo9200.dec new file mode 100644 index 0000000..1116c9c --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph140_dc9101mdo9201_dc9100mdo9200.dec @@ -0,0 +1,7496 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 3770 4040 4160 4415 +# Vphoton Mode 140 50% D+D- 2 : 1 : 1 : 1 +# 50% D0D0 2 : 1 : 1 : 1 +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9100 cocktail +# D0_2 Mode 9200 cocktail +# +####################################################################################### +Decay vpho +1.0 vphoton140 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph140_dc9101mdo9201_dc9101mdo9201.dec b/BaBar_2014/ISR_aliasv2_vph140_dc9101mdo9201_dc9101mdo9201.dec new file mode 100644 index 0000000..62670ca --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph140_dc9101mdo9201_dc9101mdo9201.dec @@ -0,0 +1,7496 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 3770 4040 4160 4415 +# Vphoton Mode 140 50% D+D- 2 : 1 : 1 : 1 +# 50% D0D0 2 : 1 : 1 : 1 +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# +####################################################################################### +Decay vpho +1.0 vphoton140 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph141_dc9101mdo9201_dc9100mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph141_dc9101mdo9201_dc9100mdo9200.dec new file mode 100644 index 0000000..3aae4e5 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph141_dc9101mdo9201_dc9100mdo9200.dec @@ -0,0 +1,7496 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 141 D0 D+ pi- 1 : 2 : 5 +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9100 cocktail +# D0_2 Mode 9200 cocktail +# +# Either the D0 or the D+ but not both will be forced to a clean tag mode +####################################################################################### +Decay vpho +1.0 vphoton141 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph141_dc9101mdo9201_dc9101mdo9201.dec b/BaBar_2014/ISR_aliasv2_vph141_dc9101mdo9201_dc9101mdo9201.dec new file mode 100644 index 0000000..de22af3 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph141_dc9101mdo9201_dc9101mdo9201.dec @@ -0,0 +1,7495 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 141 D0 D+ pi- 1 : 2 : 5 +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# +####################################################################################### +Decay vpho +1.0 vphoton141 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph142_dc9101mdo9201_dc9100mdo9200.dec b/BaBar_2014/ISR_aliasv2_vph142_dc9101mdo9201_dc9100mdo9200.dec new file mode 100644 index 0000000..b3fb5f8 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph142_dc9101mdo9201_dc9100mdo9200.dec @@ -0,0 +1,7501 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 142 50% D*0 D+ pi- 1 : 2 : 5 +# 50% D*+ D0 pi- 1 : 2 : 5 +# +# D*1 cocktail +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9100 cocktail +# D0_2 Mode 9200 cocktail +# +# The D decay is forced on the D*/D side 50%/50% of the time +# Only one side of the event is forced. +# +####################################################################################### +Decay vpho +1.0 vphoton142 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph142_dc9101mdo9201_dc9101mdo9201.dec b/BaBar_2014/ISR_aliasv2_vph142_dc9101mdo9201_dc9101mdo9201.dec new file mode 100644 index 0000000..91098b6 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph142_dc9101mdo9201_dc9101mdo9201.dec @@ -0,0 +1,7498 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 142 50% D*0 D+ pi- 1 : 2 : 5 +# 50% D*+ D0 pi- 1 : 2 : 5 +# +# D*1 cocktail +# +# D+/-1 Mode 9101 cleanest tags Kpipi K0p +# D0_1 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# D+/-2 Mode 9101 cleanest tags Kpipi K0p +# D0_2 Mode 9201 cleanest tags Kpi Kpipipi Kpipi0 K0pp +# +####################################################################################### +Decay vpho +1.0 vphoton142 PHSP; +Enddecay + +Decay D+1 +1.0 D+9101 PHSP; +Enddecay +CDecay D-1 + +Decay D01 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+2 +1.0 D+9101 PHSP; +Enddecay +CDecay D-2 + +Decay D02 +1.0 D0_9201 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9000.dec b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9000.dec new file mode 100644 index 0000000..2d0e2d6 --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9000.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 143 Ds Ds 6% 2% 2% +# Ds* Ds 40% 20% +# Ds* Ds* 30% +# Ds* Ds* (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# Ds1 Mode 9006 cleanest tags Kpipi K0p +# Ds2 Mode 9000 cocktail +# +# Cleanest hadronic tag modes are: +# phiKK pi, K0-pp K, K*-Kp K +# +####################################################################################### +Decay vpho +1.0 vphoton143 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9006 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9003.dec b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9003.dec new file mode 100644 index 0000000..efd960c --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9003.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 143 Ds Ds 6% 2% 2% +# Ds* Ds 40% 20% +# Ds* Ds* 30% +# Ds* Ds* (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# Ds1 Mode 9006 cleanest tags Kpipi K0p +# Ds2 Mode 9003 semileptonic 1-prongs +# +# Cleanest hadronic tag modes are: +# phiKK pi, K0-pp K, K*-Kp K +# +####################################################################################### +Decay vpho +1.0 vphoton143 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9006 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9003 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9007.dec b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9007.dec new file mode 100644 index 0000000..a5f1d0b --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9007.dec @@ -0,0 +1,7495 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 143 Ds Ds 6% 2% 2% +# Ds* Ds 40% 20% +# Ds* Ds* 30% +# Ds* Ds* (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# Ds1 Mode 9006 cleanest tags Kpipi K0p +# Ds2 Mode 9007 cocktail +# +# Cleanest hadronic tag modes are: +# phiKK pi, K0-pp K, K*-Kp K +# +# Clean hadronic tag modes are: +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# +####################################################################################### +Decay vpho +1.0 vphoton143 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9006 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9007 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9009.dec b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9009.dec new file mode 100644 index 0000000..582ad7e --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9009.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 143 Ds Ds 6% 2% 2% +# Ds* Ds 40% 20% +# Ds* Ds* 30% +# Ds* Ds* (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# Ds1 Mode 9006 cleanest tags Kpipi K0p +# Ds2 Mode 9009 semileptonic multi-prongs +# +# Cleanest hadronic tag modes are: +# phiKK pi, K0-pp K, K*-Kp K +# +####################################################################################### +Decay vpho +1.0 vphoton143 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9006 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9009 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9010.dec b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9010.dec new file mode 100644 index 0000000..d1a27bf --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9010.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 143 Ds Ds 6% 2% 2% +# Ds* Ds 40% 20% +# Ds* Ds* 30% +# Ds* Ds* (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# Ds1 Mode 9006 cleanest tags Kpipi K0p +# Ds2 Mode 9010 leptonic 1 prongs: mu nu, tau-1prong nu +# +# Cleanest hadronic tag modes are: +# phiKK pi, K0-pp K, K*-Kp K +# +####################################################################################### +Decay vpho +1.0 vphoton143 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9006 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9010 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9011.dec b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9011.dec new file mode 100644 index 0000000..51b92ce --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9011.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 143 Ds Ds 6% 2% 2% +# Ds* Ds 40% 20% +# Ds* Ds* 30% +# Ds* Ds* (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# Ds1 Mode 9006 cleanest tags Kpipi K0p +# Ds2 Mode 9011 leptonic multi prongs: tau-multiprong nu +# +# Cleanest hadronic tag modes are: +# phiKK pi, K0-pp K, K*-Kp K +# +####################################################################################### +Decay vpho +1.0 vphoton143 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9006 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9011 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9013.dec b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9013.dec new file mode 100644 index 0000000..ac6715f --- /dev/null +++ b/BaBar_2014/ISR_aliasv2_vph143_ds9006_ds9013.dec @@ -0,0 +1,7492 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D+/D0 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combinations for MC production runs +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D-,D0bar 50:50 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*+ unforced. recoil side (2) D*- -> D- 100% +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*0 unforced, tag side is the D*/D 50:50. +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +# D unforced, tag side is the D/Dbar 50:50. +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +0.2 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +0.1 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.250 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +0.625 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +# tag side is the D+/D0 50:50. +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +0.02 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +0.40 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.20 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1- pi+ SVS; +Enddecay +CDecay anti-D0_9201 + + +####################################################################################### +# Based on ProdDecayFiles/ISR_aliases_v2.dec +# +# Psi 4040 4160 4415 +# Vphoton Mode 143 Ds Ds 6% 2% 2% +# Ds* Ds 40% 20% +# Ds* Ds* 30% +# Ds* Ds* (L,S) = 50% (1,0), 50% (1,2), 0% (3,2) +# +# D*1 cocktail +# D*2 cocktail +# +# Ds1 Mode 9006 cleanest tags Kpipi K0p +# Ds2 Mode 9013 K0->neutral K +# +# Cleanest hadronic tag modes are: +# phiKK pi, K0-pp K, K*-Kp K +# +####################################################################################### +Decay vpho +1.0 vphoton143 PHSP; +Enddecay + +Decay D_s+1 +1.0 D_s+9006 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9013 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph137_dc6000_do9202mdc6000.dec b/BaBar_2014/ISR_aliasv3_vph137_dc6000_do9202mdc6000.dec new file mode 100644 index 0000000..2bf9de6 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph137_dc6000_do9202mdc6000.dec @@ -0,0 +1,8005 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_12 gamma VECTORISR 1. 1.; +Enddecay + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# e+e- -> Gamma_ISR + psi(4040), psi(4040)->D+D*- +# D+ -> K-pi+pi+ (100%) +# D*- -> D0~pi-, (80%), D-pi0 (20%) +# D0~ -> K+pi- (40%), K+pi+pi+pi- (40%), K+pi-pi0 (20%) +# D- -> K+pi-pi- (100%) +# +# e+e- -> Gamma_ISR + psi(4160), psi(4160)->D+D*- +# D+ -> K-pi+pi+ (100%) +# D*- -> D0~pi-, (80%), D-pi0 (20%) +# D0~ -> K+pi- (40%), K+pi+pi+pi- (40%), K+pi-pi0 (20%) +# D- -> K+pi-pi- (100%) +# +# e+e- -> Gamma_ISR + psi(4415), psi(4415)->D+D*- +# D+ -> K-pi+pi+ (100%) +# D*- -> D0~pi-, (80%), D-pi0 (20%) +# D0~ -> K+pi- (40%), K+pi+pi+pi- (40%), K+pi-pi0 (20%) +# D- -> K+pi-pi- (100%) +# +########################################################################### +Decay vpho +#1.0 vphoton137 PHSP; +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +Decay D*+1 +1.0 D*+1_80 PHSP; +Enddecay +CDecay D*-1 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D02 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 +End diff --git a/BaBar_2014/ISR_aliasv3_vph139_dstrpi0_do9202mdO9202.dec b/BaBar_2014/ISR_aliasv3_vph139_dstrpi0_do9202mdO9202.dec new file mode 100644 index 0000000..874c945 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph139_dstrpi0_do9202mdO9202.dec @@ -0,0 +1,7998 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_12 gamma VECTORISR 1. 1.; +Enddecay + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# e+e- -> Gamma_ISR + psi(4040), psi(4040)->D0D0*~ +# D0->K-pi+ (40%), K-pi-pi-pi+ (40%), K-pi+pi0 (20%) +# D0*~->D0~pi0 (100%), D0~ -> K+pi- (40%), K+pi-pi-pi+ (40%), K+pi-pi0 (20%)# +# +# e+e- -> Gamma_ISR + psi(4160), psi(4160)->D0D0*~ +# D0->K-pi+ (40%), K-pi-pi-pi+ (40%), K-pi+pi0 (20%) +# D0*~->D0~pi0 (100%), D0~ -> K+pi- (40%), K+pi-pi-pi+ (40%), K+pi-pi0 (20%)# +# +# e+e- -> Gamma_ISR + psi(4415), psi(4415)->D0D0*~ +# D0->K-pi+ (40%), K-pi-pi-pi+ (40%), K-pi+pi0 (20%) +# D0*~->D0~pi0 (100%), D0~ -> K+pi- (40%), K+pi-pi-pi+ (40%), K+pi-pi0 (20%) +########################################################################### +Decay vpho +#1.0 vphoton139 PHSP; +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D02 + +#Decay D+1 +#1.0 D+9101 PHSP; +#Enddecay +#CDecay D-1 + +#Decay D+2 +#1.0 D+9101 PHSP; +#Enddecay +#CDecay D-2 +End diff --git a/BaBar_2014/ISR_aliasv3_vph144_dc6000_do3000mdc6000_do9202.dec b/BaBar_2014/ISR_aliasv3_vph144_dc6000_do3000mdc6000_do9202.dec new file mode 100644 index 0000000..1a56b33 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph144_dc6000_do3000mdc6000_do9202.dec @@ -0,0 +1,7964 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_12 gamma VECTORISR 1. 1.; +Enddecay + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# e+e- -> Gamma_ISR + psi(3770), psi(3770)->D0D0~ +# D0->K-pi+ (100%) +# D0~->K+pi- (40%), K+pi-pi-pi+ (40%), K+pi-pi0 (20%) +# +# e+e- -> Gamma_ISR + psi(3770), psi(3770)->D+D- +# D+ ->K-pi+pi+ (100%) +# D- ->K+pi-pi- (100%) +########################################################################### +Decay vpho +#1.0 vphoton144 PHSP; +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D02 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 +End diff --git a/BaBar_2014/ISR_aliasv3_vph145_dstrneu_do3000mdc6000_do9202.dec b/BaBar_2014/ISR_aliasv3_vph145_dstrneu_do3000mdc6000_do9202.dec new file mode 100644 index 0000000..18e2105 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph145_dstrneu_do3000mdc6000_do9202.dec @@ -0,0 +1,8012 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_80_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-_80_12 gamma VECTORISR 1. 1.; +Enddecay + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# e+e- -> Gamma_ISR + psi(4040), psi(4040)->D*+D*- +# D*+ -> D0pi+ (100%) +# D0 -> K-pi+ (100%) +# D*- -> D0~pi-, (80%), D-pi0 (20%) +# D0~ -> K+pi- (40%), K+pi+pi+pi- (40%), K+pi-pi0 (20%) +# D- -> K+pi-pi- (100%) +# +# e+e- -> Gamma_ISR + psi(4160), psi(4040)->D*+D*- +# D*+ -> D0pi+ (100%) +# D0 -> K-pi+ (100%) +# D*- -> D0~pi-, (80%), D-pi0 (20%) +# D0~ -> K+pi- (40%), K+pi+pi+pi- (40%), K+pi-pi0 (20%) +# D- -> K+pi-pi- (100%) +# +# e+e- -> Gamma_ISR + psi(4415), psi(4415)->D*+D*- +# D*+ -> D0pi+ (100%) +# D0 -> K-pi+ (100%) +# D*- -> D0~pi-, (80%), D-pi0 (20%) +# D0~ -> K+pi- (40%), K+pi+pi+pi- (40%), K+pi-pi0 (20%) +# D- -> K+pi-pi- (100%) +# +########################################################################### +Decay vpho +#1.0 vphoton145 PHSP; +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_80 PHSP; +Enddecay +CDecay D*-2 + +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D02 + +# D1 is always neutral +#Decay D+1 +#1.0 D+6000 PHSP; +#Enddecay +#CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DD12pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DD12pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..5a98616 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DD12pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8056 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# DD 1,2pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D+D- pi0 +# e+e- -> Gamma_Isr + D+D- pi+pi- +# e+e- -> Gamma_Isr + D+D- pi0pi0 +# (D+ forced) +# D+ -> K-pi+pi- (100%) +# (D- cocktail) +# e+e- -> Gamma_Isr + D0D0~ pi0 +# e+e- -> Gamma_Isr + D0D0~ pi+pi- +# e+e- -> Gamma_Isr + D0D0~ pi0pi0 +# (D0 forced) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D01 anti-D02 pi0 PHSP; +1.0 D02 anti-D01 pi0 PHSP; +1.0 D+1 D-2 pi0 PHSP; +1.0 D+2 D-1 pi0 PHSP; + +1.0 D01 anti-D02 pi0 pi0 PHSP; +1.0 D02 anti-D01 pi0 pi0 PHSP; +1.0 D+1 D-2 pi0 pi0 PHSP; +1.0 D+2 D-1 pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- PHSP; +1.0 D02 anti-D01 pi+ pi- PHSP; +1.0 D+1 D-2 pi+ pi- PHSP; +1.0 D+2 D-1 pi+ pi- PHSP; + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +#Decay D*02 +#1.0 D*02_pi0 PHSP; +#Enddecay +#CDecay anti-D*02 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DD34pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DD34pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..4c04169 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DD34pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8070 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# DD 3,4pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D+D- pi0pi0pi0 +# e+e- -> Gamma_Isr + D+D- pi+pi-pi0 +# e+e- -> Gamma_Isr + D+D- pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D+D- pi0pi0pi+pi- +# e+e- -> Gamma_Isr + D+D- pi+pi-pi+pi- +# (D+ forced) +# D+ -> K-pi+pi- (100%) +# (D- cocktail) +# e+e- -> Gamma_Isr + D0D0~ pi0pi0pi0 +# e+e- -> Gamma_Isr + D0D0~ pi+pi-pi0 +# e+e- -> Gamma_Isr + D0D0~ pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D0D0~ pi0pi0pi+pi- +# e+e- -> Gamma_Isr + D0D0~ pi+pi-pi+pi- +# (D0 forced) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D01 anti-D02 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D01 pi0 pi0 pi0 PHSP; +1.0 D+1 D-2 pi0 pi0 pi0 PHSP; +1.0 D+2 D-1 pi0 pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi0 PHSP; +1.0 D02 anti-D01 pi+ pi- pi0 PHSP; +1.0 D+1 D-2 pi+ pi- pi0 PHSP; +1.0 D+2 D-1 pi+ pi- pi0 PHSP; + +1.0 D01 anti-D02 pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D01 pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D-2 pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D-1 pi0 pi0 pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi0 pi0 PHSP; +1.0 D02 anti-D01 pi+ pi- pi0 pi0 PHSP; +1.0 D+1 D-2 pi+ pi- pi0 pi0 PHSP; +1.0 D+2 D-1 pi+ pi- pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi+ pi- PHSP; +1.0 D02 anti-D01 pi+ pi- pi+ pi- PHSP; +1.0 D+1 D-2 pi+ pi- pi+ pi- PHSP; +1.0 D+2 D-1 pi+ pi- pi+ pi- PHSP; + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +#Decay D*02 +#1.0 D*02_pi0 PHSP; +#Enddecay +#CDecay anti-D*02 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DD56pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DD56pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..07502b6 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DD56pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8085 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# DD 5,6pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D+D- pi0pi0pi0pi0pi0 <======= 1K +# e+e- -> Gamma_Isr + D+D- pi+pi-pi+pi-pi0 +# e+e- -> Gamma_Isr + D+D- pi+pi-pi0pi0pi0 +# e+e- -> Gamma_Isr + D+D- pi0pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D+D- pi+pi-pi+pi-pi+pi- +# e+e- -> Gamma_Isr + D+D- pi+pi-pi+pi-pi0pi0 +# e+e- -> Gamma_Isr + D+D- pi+pi-pi0pi0pi0pi0 +# (D+ forced) +# D+ -> K-pi+pi- (100%) +# (D- cocktail) +# e+e- -> Gamma_Isr + D0D0~ pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D0D0~ pi+pi-pi+pi-pi0 +# e+e- -> Gamma_Isr + D0D0~ pi+pi-pi0pi0pi0 +# e+e- -> Gamma_Isr + D0D0~ pi0pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D0D0~ pi+pi-pi+pi-pi+pi- +# e+e- -> Gamma_Isr + D0D0~ pi+pi-pi+pi-pi0pi0 +# e+e- -> Gamma_Isr + D0D0~ pi+pi-pi0pi0pi0pi0 +# (D0 forced) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D01 anti-D02 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D01 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D-1 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D02 anti-D01 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D+1 D-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D+2 D-1 pi+ pi- pi0 pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D02 anti-D01 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D+1 D-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D+2 D-1 pi+ pi- pi+ pi- pi0 PHSP; + +1.0 D01 anti-D02 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D01 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D01 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D02 anti-D01 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D+1 D-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D+2 D-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; + +1.0 D01 anti-D02 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D02 anti-D01 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D+1 D-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D+2 D-1 pi+ pi- pi+ pi- pi+ pi- PHSP; + + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +#Decay D*02 +#1.0 D*02_pi0 PHSP; +#Enddecay +#CDecay anti-D*02 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DstrD12pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DstrD12pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..2b9df10 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DstrD12pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8076 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# DD 1,2pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D+D- pi0 +# e+e- -> Gamma_Isr + D+D- pi+pi- +# e+e- -> Gamma_Isr + D+D- pi0pi0 +# (D+ forced) +# D+ -> K-pi+pi- (100%) +# (D- cocktail) +# e+e- -> Gamma_Isr + D0D0~ pi0 +# e+e- -> Gamma_Isr + D0D0~ pi+pi- +# e+e- -> Gamma_Isr + D0D0~ pi0pi0 +# (D0 forced) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +# +# All D*0 are forced to pi0 D0 +# half the time, the D from D* is forced, half the time the other D is force +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D*01 anti-D02 pi0 PHSP; +1.0 D02 anti-D*01 pi0 PHSP; +1.0 D*+1 D-2 pi0 PHSP; +1.0 D+2 D*-1 pi0 PHSP; +1.0 D01 anti-D*02 pi0 PHSP; +1.0 D*02 anti-D01 pi0 PHSP; +1.0 D+1 D*-2 pi0 PHSP; +1.0 D*+2 D-1 pi0 PHSP; + +1.0 D*01 anti-D02 pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi0 pi0 PHSP; +1.0 D*+1 D-2 pi0 pi0 PHSP; +1.0 D+2 D*-1 pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi0 pi0 PHSP; +1.0 D+1 D*-2 pi0 pi0 PHSP; +1.0 D*+2 D-1 pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- PHSP; +1.0 D02 anti-D*01 pi+ pi- PHSP; +1.0 D*+1 D-2 pi+ pi- PHSP; +1.0 D+2 D*-1 pi+ pi- PHSP; +1.0 D01 anti-D*02 pi+ pi- PHSP; +1.0 D*02 anti-D01 pi+ pi- PHSP; +1.0 D+1 D*-2 pi+ pi- PHSP; +1.0 D*+2 D-1 pi+ pi- PHSP; + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DstrD34pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DstrD34pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..21c515a --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DstrD34pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8099 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# D*D 3,4pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D*+D- pi0pi0pi0 <======= 1K +# e+e- -> Gamma_Isr + D*+D- pi+pi-pi0 +# e+e- -> Gamma_Isr + D*+D- pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D- pi0pi0pi+pi- +# e+e- -> Gamma_Isr + D*+D- pi+pi-pi+pi- +# (D*+ forced) +# (D*+ cocktail) +# D0 -> K-pi+ (100%) +# D+ -> K+pi+pi- (100%) +# (D- cocktail) +# e+e- -> Gamma_Isr + D*0D0~ pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi+pi-pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi0pi0pi+pi- +# e+e- -> Gamma_Isr + D*0D0~ pi+pi-pi+pi- +# (D*0 forced) +# D*0 -> D0pi0 (100%) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +# All D*0 are forced to pi0 D0 +# half the time, the D from D* is forced, half the time the other D is force +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D*01 anti-D02 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi0 pi0 pi0 PHSP; +1.0 D*+1 D-2 pi0 pi0 pi0 PHSP; +1.0 D+2 D*-1 pi0 pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi0 pi0 pi0 PHSP; +1.0 D+1 D*-2 pi0 pi0 pi0 PHSP; +1.0 D*+2 D-1 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi0 PHSP; +1.0 D02 anti-D*01 pi+ pi- pi0 PHSP; +1.0 D*+1 D-2 pi+ pi- pi0 PHSP; +1.0 D+2 D*-1 pi+ pi- pi0 PHSP; +1.0 D01 anti-D*02 pi+ pi- pi0 PHSP; +1.0 D*02 anti-D01 pi+ pi- pi0 PHSP; +1.0 D+1 D*-2 pi+ pi- pi0 PHSP; +1.0 D*+2 D-1 pi+ pi- pi0 PHSP; + +1.0 D*01 anti-D02 pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D-2 pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D*-1 pi0 pi0 pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D*-2 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D-1 pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi+ pi- pi0 pi0 PHSP; +1.0 D*+1 D-2 pi+ pi- pi0 pi0 PHSP; +1.0 D+2 D*-1 pi+ pi- pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi+ pi- pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi+ pi- pi0 pi0 PHSP; +1.0 D+1 D*-2 pi+ pi- pi0 pi0 PHSP; +1.0 D*+2 D-1 pi+ pi- pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi+ pi- PHSP; +1.0 D02 anti-D*01 pi+ pi- pi+ pi- PHSP; +1.0 D*+1 D-2 pi+ pi- pi+ pi- PHSP; +1.0 D+2 D*-1 pi+ pi- pi+ pi- PHSP; +1.0 D01 anti-D*02 pi+ pi- pi+ pi- PHSP; +1.0 D*02 anti-D01 pi+ pi- pi+ pi- PHSP; +1.0 D+1 D*-2 pi+ pi- pi+ pi- PHSP; +1.0 D*+2 D-1 pi+ pi- pi+ pi- PHSP; +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DstrD56pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DstrD56pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..c3f87d2 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DstrD56pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8123 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# D*D 5,6pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D*+D- pi0pi0pi0pi0pi0 <======= 1K +# e+e- -> Gamma_Isr + D*+D- pi+pi-pi+pi-pi0 +# e+e- -> Gamma_Isr + D*+D- pi+pi-pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D- pi0pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D- pi+pi-pi+pi-pi0pi0 +# e+e- -> Gamma_Isr + D*+D- pi+pi-pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D- pi+pi-pi+pi-pi+pi- +# (D*+ forced) +# (D*+ cocktail) +# D0 -> K-pi+ (100%) +# D+ -> K+pi+pi- (100%) +# (D- cocktail) +# e+e- -> Gamma_Isr + D*0D0~ pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi+pi-pi+pi-pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi+pi-pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi0pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi+pi-pi+pi-pi0pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi+pi-pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0~ pi+pi-pi+pi-pi+pi- +# (D*0 forced) +# D*0 -> D0pi0 (100%) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +# All D*0 are forced to pi0 D0 +# half the time, the D from D* is forced, half the time the other D is force +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D*01 anti-D02 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D*-1 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D*-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D-1 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D*+1 D-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D+2 D*-1 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D+1 D*-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D*+2 D-1 pi+ pi- pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D02 anti-D*01 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D*+1 D-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D+2 D*-1 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D01 anti-D*02 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D*02 anti-D01 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D+1 D*-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D*+2 D-1 pi+ pi- pi+ pi- pi0 PHSP; + +1.0 D*01 anti-D02 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D*-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D*-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D+2 D*-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D+1 D*-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D02 anti-D*01 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D*+1 D-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D+2 D*-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D01 anti-D*02 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D*02 anti-D01 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D+1 D*-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D*+2 D-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; + +1.0 D*01 anti-D02 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D02 anti-D*01 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D*+1 D-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D+2 D*-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D01 anti-D*02 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D*02 anti-D01 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D+1 D*-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D*+2 D-1 pi+ pi- pi+ pi- pi+ pi- PHSP; + + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DstrDstr12pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DstrDstr12pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..9f1699c --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DstrDstr12pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8059 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# D*D* 1,2pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D*+D*- pi0 +# e+e- -> Gamma_Isr + D*+D*- pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi- +# (D*+ forced) +# (D*+ cocktail) +# D0 -> K-pi+ (100%) +# D+ -> K+pi+pi- (100%) +# (D*- cocktail) +# e+e- -> Gamma_Isr + D*0D0*~ pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi- +# (D*0 forced) +# D*0 -> D0pi0 (100%) +# D0 -> K-pi+ (100%) +# (D0*~ cocktail) +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D*01 anti-D*02 pi0 PHSP; +1.0 D*02 anti-D*01 pi0 PHSP; +1.0 D*+1 D*-2 pi0 PHSP; +1.0 D*+2 D*-1 pi0 PHSP; + +1.0 D*01 anti-D*02 pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- PHSP; +1.0 D*02 anti-D*01 pi+ pi- PHSP; +1.0 D*+1 D*-2 pi+ pi- PHSP; +1.0 D*+2 D*-1 pi+ pi- PHSP; + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DstrDstr34pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DstrDstr34pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..d25fcd7 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DstrDstr34pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8071 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# D*D* 3,4pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D*+D*- pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi0 +# e+e- -> Gamma_Isr + D*+D*- pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi+pi- +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi0pi0 +# (D*+ forced) +# D*+ -> D0pi+ (70%), D+pi0 (30%) +# D0 -> K-pi+ (100%) +# D+ -> K+pi+pi- (100%) +# (D*- cocktail) +# e+e- -> Gamma_Isr + D*0D0*~ pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi+pi- +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi0pi0 +# (D*0 forced) +# D*0 -> D0pi0 (100%) +# D0 -> K-pi+ (100%) +# (D0*~ cocktail) +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D*01 anti-D*02 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi0 pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi0 pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi0 PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi0 PHSP; +1.0 D*+1 D*-2 pi+ pi- pi0 PHSP; +1.0 D*+2 D*-1 pi+ pi- pi0 PHSP; + +1.0 D*01 anti-D*02 pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi+ pi- pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi+ pi- pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi+ pi- PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi+ pi- PHSP; +1.0 D*+1 D*-2 pi+ pi- pi+ pi- PHSP; +1.0 D*+2 D*-1 pi+ pi- pi+ pi- PHSP; +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph146_DstrDstr56pi_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph146_DstrDstr56pi_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..a2f7a9b --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph146_DstrDstr56pi_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8085 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +# D*D* 5,6pi mode +# 4.7 5.2 5.7 6.2 6.7 7.2 +# e+e- -> Gamma_Isr + D*+D*- pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi+pi-pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi0pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi+pi-pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*+D*- pi+pi-pi+pi-pi+pi- +# (D*+ forced) +# D*+ -> D0pi+ (70%), D+pi0 (30%) +# D0 -> K-pi+ (100%) +# D+ -> K+pi+pi- (100%) +# (D*- cocktail) +# e+e- -> Gamma_Isr + D*0D0*~ pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi+pi-pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi0pi0pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi+pi-pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi0pi0pi0pi0 +# e+e- -> Gamma_Isr + D*0D0*~ pi+pi-pi+pi-pi+pi- +# (D*0 forced) +# D*0 -> D0pi0 (100%) +# D0 -> K-pi+ (100%) +# (D0*~ cocktail) +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton146 PHSP; +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_72 +1.0 D*01 anti-D*02 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi+ pi- pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D*+1 D*-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D*+2 D*-1 pi+ pi- pi+ pi- pi0 PHSP; + +1.0 D*01 anti-D*02 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D*+1 D*-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D*+2 D*-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; + +1.0 D*01 anti-D*02 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D*02 anti-D*01 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D*+1 D*-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D*+2 D*-1 pi+ pi- pi+ pi- pi+ pi- PHSP; + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +#Decay D*+1 +#1.0 D*+1_80 PHSP; +#Enddecay +#CDecay D*-1 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph147_DD_DstrD_DstrDstr_dc6000_do3000_dc9100_do9200.dec b/BaBar_2014/ISR_aliasv3_vph147_DD_DstrD_DstrDstr_dc6000_do3000_dc9100_do9200.dec new file mode 100644 index 0000000..c580941 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph147_DD_DstrD_DstrDstr_dc6000_do3000_dc9100_do9200.dec @@ -0,0 +1,8088 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +########################################################################### +## Gather all 4.2 GeV requests +#1K events each, 4.2 GeV +# e+e- -> Gamma_Isr + D*+D*- no pions +# (D*+ forced) +# D0 -> K-pi+ (100%) +# D+ -> K+pi+pi- (100%) +# (D*- cocktail) +# +# e+e- -> Gamma_Isr + D*0D*0~ no pions +# (D*0 forced) +# D*0 -> D0pi0 (100%) +# D0 -> K-pi+ (100%) +# (D*0~ cocktail) +# +# e+e- -> Gamma_Isr + D*+D- no pions +# (D*+ forced) +# D0 -> K-pi+ (100%) +# D+ -> K+pi+pi- (100%) +# (D- cocktail) +# +# e+e- -> Gamma_Isr + D*0D0~ no pions +# (D*0 forced) +# D*0 -> D0pi0 (100%) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +# +# e+e- -> Gamma_Isr + D+D- no pions +# (D+ forced) +# D+ -> K-pi+pi- (100%) +# (D- cocktail) +# e+e- -> Gamma_Isr + D0D0~ no pions +# (D0 forced) +# D0 -> K-pi+ (100%) +# (D0~ cocktail) +########################################################################### +#146 is spikes +Decay vpho +#1.0 vphoton147 PHSP; +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_42_42 +1.0 D01 anti-D02 PHSP; +1.0 D02 anti-D01 PHSP; +1.0 D+1 D-2 PHSP; +1.0 D+2 D-1 PHSP; + +0.5 D*01 anti-D02 PHSP; +0.5 D02 anti-D*01 PHSP; +0.5 D*+1 D-2 PHSP; +0.5 D+2 D*-1 PHSP; +0.5 D01 anti-D*02 PHSP; +0.5 D*02 anti-D01 PHSP; +0.5 D+1 D*-2 PHSP; +0.5 D*+2 D-1 PHSP; + +1.0 D*01 anti-D*02 PHSP; +1.0 D*02 anti-D*01 PHSP; +1.0 D*+1 D*-2 PHSP; +1.0 D*+2 D*-1 PHSP; + + + +Enddecay + + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +# D0 Cocktail +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# D+ Cocktail +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + + + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + + + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc12pi_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc12pi_Lc9301mLc9300.dec new file mode 100644 index 0000000..19a7320 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc12pi_Lc9301mLc9300.dec @@ -0,0 +1,8239 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 PHSP; +1.0 Lc+1 Lc-2 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc12pi_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc12pi_Lc9301mLc9301.dec new file mode 100644 index 0000000..a63b097 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc12pi_Lc9301mLc9301.dec @@ -0,0 +1,8239 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- +# +# Decays of final state Lc's: pkpi vs pkpi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 PHSP; +1.0 Lc+1 Lc-2 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc34pi_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc34pi_Lc9301mLc9300.dec new file mode 100644 index 0000000..4c0a7ad --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc34pi_Lc9301mLc9300.dec @@ -0,0 +1,8245 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 PHSP; +1.0 Lc+1 Lc-2 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi+ pi- PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc34pi_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc34pi_Lc9301mLc9301.dec new file mode 100644 index 0000000..d3db5b6 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc34pi_Lc9301mLc9301.dec @@ -0,0 +1,8245 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 PHSP; +1.0 Lc+1 Lc-2 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi+ pi- PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc56pi_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc56pi_Lc9301mLc9300.dec new file mode 100644 index 0000000..f465a7b --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc56pi_Lc9301mLc9300.dec @@ -0,0 +1,8251 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- pi+ pi- +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 Lc+1 Lc-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 pi+ pi- PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi+ pi- pi+ pi- PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc56pi_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc56pi_Lc9301mLc9301.dec new file mode 100644 index 0000000..3107722 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc56pi_Lc9301mLc9301.dec @@ -0,0 +1,8251 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi0 pi0 pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi0 pi0 pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- pi0 pi0 +# e+e- -> Gamma_Isr + Lc+Lc- pi+ pi- pi+ pi- pi+ pi- +# +# Decays of final state Lc's: pkpi vs pkpi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 Lc+1 Lc-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi0 pi0 pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi0 pi0 pi+ pi- PHSP; +1.0 Lc+1 Lc-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 Lc-1 Lc+2 pi+ pi- pi+ pi- pi+ pi- PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc_Lc9301mLc9300.dec new file mode 100644 index 0000000..a511f81 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc_Lc9301mLc9300.dec @@ -0,0 +1,8233 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 PHSP; +1.0 Lc+2 Lc-1 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcLc_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_LcLc_Lc9301mLc9301.dec new file mode 100644 index 0000000..2f90646 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcLc_Lc9301mLc9301.dec @@ -0,0 +1,8233 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+Lc- +# +# Decays of final state Lc's: pkpi vs pkpi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Lc-2 PHSP; +1.0 Lc+2 Lc-1 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcND1pi_Lc9301mdc6000_do3000.dec b/BaBar_2014/ISR_aliasv3_vph148_LcND1pi_Lc9301mdc6000_do3000.dec new file mode 100644 index 0000000..9b2806e --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcND1pi_Lc9301mdc6000_do3000.dec @@ -0,0 +1,8256 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+ pbar anti-D0 pi0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar D- pi0 + CC +# e+e- -> Gamma_Isr + Lc+ pbar anti-D*0 pi0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar D*- pi0 + CC +# +# e+e- -> Gamma_Isr + Lc+ pbar D- pi+ + CC +# e+e- -> Gamma_Isr + Lc+ nbar anti-D0 pi- + CC +# e+e- -> Gamma_Isr + Lc+ pbar D*- pi+ + CC +# e+e- -> Gamma_Isr + Lc+ nbar anti-D0 pi- + CC +# +# Decays of final state Lc: pkpi +# Decays of final state D*0: D0 pi0 +# Decays of final state D*+: D0 pi+ +# Decays of final state D0: K pi +# Decays of final state D+: K pi pi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 anti-p- anti-D02 pi0 PHSP; +1.0 Lc+1 anti-n0 D-2 pi0 PHSP; +1.0 Lc+1 anti-p- anti-D*02 pi0 PHSP; +1.0 Lc+1 anti-n0 D*-2 pi0 PHSP; + +1.0 Lc+1 anti-p- D-2 pi+ PHSP; +1.0 Lc+1 anti-n0 anti-D*02 pi- PHSP; +1.0 Lc+1 anti-p- D*-2 pi+ PHSP; +1.0 Lc+1 anti-n0 anti-D*02 pi- PHSP; + +1.0 Lc-1 p+ D02 pi0 PHSP; +1.0 Lc-1 n0 D+2 pi0 PHSP; +1.0 Lc-1 p+ D*02 pi0 PHSP; +1.0 Lc-1 n0 D*+2 pi0 PHSP; + +1.0 Lc-1 p+ D+2 pi- PHSP; +1.0 Lc-1 n0 D*02 pi+ PHSP; +1.0 Lc-1 p+ D*+2 pi- PHSP; +1.0 Lc-1 n0 D*02 pi+ PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcND2pi_Lc9301mdc6000_do3000.dec b/BaBar_2014/ISR_aliasv3_vph148_LcND2pi_Lc9301mdc6000_do3000.dec new file mode 100644 index 0000000..3975bbd --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcND2pi_Lc9301mdc6000_do3000.dec @@ -0,0 +1,8271 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+ pbar anti-D0 pi0 pi0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar D- pi0 pi0 + CC +# e+e- -> Gamma_Isr + Lc+ pbar anti-D*0 pi0 pi0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar D*- pi0 pi0 + CC +# +# e+e- -> Gamma_Isr + Lc+ pbar anti-D0 pi+ pi- + CC +# e+e- -> Gamma_Isr + Lc+ nbar D- pi+ pi- + CC +# e+e- -> Gamma_Isr + Lc+ pbar anti-D*0 pi+ pi- + CC +# e+e- -> Gamma_Isr + Lc+ nbar D*- pi+ pi- + CC +# +# e+e- -> Gamma_Isr + Lc+ pbar D- pi+ pi0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar anti-D0 pi- pi0 + CC +# e+e- -> Gamma_Isr + Lc+ pbar D*- pi+ pi0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar anti-D0 pi- pi0 + CC +# +# Decays of final state Lc: pkpi +# Decays of final state D*0: D0 pi0 +# Decays of final state D*+: D0 pi+ +# Decays of final state D0: K pi +# Decays of final state D+: K pi pi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 anti-p- anti-D02 pi0 pi0 PHSP; +1.0 Lc+1 anti-n0 D-2 pi0 pi0 PHSP; +1.0 Lc+1 anti-p- anti-D*02 pi0 pi0 PHSP; +1.0 Lc+1 anti-n0 D*-2 pi0 pi0 PHSP; + +1.0 Lc+1 anti-p- anti-D02 pi+ pi- PHSP; +1.0 Lc+1 anti-n0 D-2 pi+ pi- PHSP; +1.0 Lc+1 anti-p- anti-D*02 pi+ pi- PHSP; +1.0 Lc+1 anti-n0 D*-2 pi+ pi- PHSP; + +1.0 Lc+1 anti-p- D-2 pi+ pi0 PHSP; +1.0 Lc+1 anti-n0 anti-D*02 pi- pi0 PHSP; +1.0 Lc+1 anti-p- D*-2 pi+ pi0 PHSP; +1.0 Lc+1 anti-n0 anti-D*02 pi- pi0 PHSP; + +1.0 Lc-1 p+ D02 pi0 pi0 PHSP; +1.0 Lc-1 n0 D+2 pi0 pi0 PHSP; +1.0 Lc-1 p+ D*02 pi0 pi0 PHSP; +1.0 Lc-1 n0 D*+2 pi0 pi0 PHSP; + +1.0 Lc-1 p+ D02 pi+ pi- PHSP; +1.0 Lc-1 n0 D+2 pi+ pi- PHSP; +1.0 Lc-1 p+ D*02 pi+ pi- PHSP; +1.0 Lc-1 n0 D*+2 pi+ pi- PHSP; + +1.0 Lc-1 p+ D+2 pi- pi0 PHSP; +1.0 Lc-1 n0 D*02 pi+ pi0 PHSP; +1.0 Lc-1 p+ D*+2 pi- pi0 PHSP; +1.0 Lc-1 n0 D*02 pi+ pi0 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcND_Lc9301mdc6000_do3000.dec b/BaBar_2014/ISR_aliasv3_vph148_LcND_Lc9301mdc6000_do3000.dec new file mode 100644 index 0000000..ac4db15 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcND_Lc9301mdc6000_do3000.dec @@ -0,0 +1,8241 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+ pbar anti-D0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar D- + CC +# e+e- -> Gamma_Isr + Lc+ pbar anti-D*0 + CC +# e+e- -> Gamma_Isr + Lc+ nbar D*- + CC +# +# Decays of final state Lc: pkpi +# Decays of final state D*0: D0 pi0 +# Decays of final state D*+: D0 pi+ +# Decays of final state D0: K pi +# Decays of final state D+: K pi pi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 anti-p- anti-D02 PHSP; +1.0 Lc+1 anti-n0 D-2 PHSP; +1.0 Lc+1 anti-p- anti-D*02 PHSP; +1.0 Lc+1 anti-n0 D*-2 PHSP; + +1.0 Lc-1 p+ D02 PHSP; +1.0 Lc-1 n0 D+2 PHSP; +1.0 Lc-1 p+ D*02 PHSP; +1.0 Lc-1 n0 D*+2 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_LcXcK_Lc9301mXc9400_Xc9401.dec b/BaBar_2014/ISR_aliasv3_vph148_LcXcK_Lc9301mXc9400_Xc9401.dec new file mode 100644 index 0000000..67d64f2 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_LcXcK_Lc9301mXc9400_Xc9401.dec @@ -0,0 +1,8252 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Lc+ Xc- Ks + CC +# e+e- -> Gamma_Isr + Lc+ anti-Xc0 K- + CC +# e+e- -> Gamma_Isr + Lc+ Xc- anti-K*0 + CC +# e+e- -> Gamma_Isr + Lc+ anti-Xc0 K*- + CC +# +# Decays of final state Lc: pkpi +# Decays of final state Xc: cocktail +# Decays of final state K0: pi+pi- +# Decays of final state K*0: K+pi- +# Decays of final state K*-: K0(->pi+pi-) pi- +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Lc+1 Xc-2 K0-pp PHSP; +1.0 Lc+1 anti-Xc02 K- PHSP; +1.0 Lc+1 Xc-2 anti-K*0-Kp PHSP; +1.0 Lc+1 anti-Xc02 K*-K0ppp PHSP; + +1.0 Lc-1 Xc+2 K0-pp PHSP; +1.0 Lc-1 Xc02 K+ PHSP; +1.0 Lc-1 Xc+2 K*0-Kp PHSP; +1.0 Lc-1 Xc02 K*+K0ppp PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +# For Reference: 9400 and 9401 are Xi_c cocktail +Decay Xc+2 +1.0 Xc+_9400 PHSP; +Enddecay +CDecay Xc-2 + +Decay Xc02 +1.0 Xc0_9401 PHSP; +Enddecay +CDecay anti-Xc02 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScND1pi_Lc9301mdc6000_do3000.dec b/BaBar_2014/ISR_aliasv3_vph148_ScND1pi_Lc9301mdc6000_do3000.dec new file mode 100644 index 0000000..f6ea891 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScND1pi_Lc9301mdc6000_do3000.dec @@ -0,0 +1,8266 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ pbar D- pi0 + CC +# e+e- -> Gamma_Isr + Sc+ pbar anti-D0 pi0 + CC +# e+e- -> Gamma_Isr + Sc+ nbar D- pi0 + CC +# e+e- -> Gamma_Isr + Sc0 nbar anti-D0 pi0 + CC + +# e+e- -> Gamma_Isr + Sc++ pbar anti-D0 pi- + CC +# e+e- -> Gamma_Isr + Sc+ pbar D- pi+ + CC +# e+e- -> Gamma_Isr + Sc+ nbar anti-D0 pi- + CC +# e+e- -> Gamma_Isr + Sc0 nbar D- pi+ + CC + +# e+e- -> Gamma_Isr + Sc++ pbar D*- pi0 + CC +# e+e- -> Gamma_Isr + Sc+ pbar anti-D*0 pi0 + CC +# e+e- -> Gamma_Isr + Sc+ nbar D*- pi0 + CC +# e+e- -> Gamma_Isr + Sc0 nbar anti-D*0 pi0 + CC + +# e+e- -> Gamma_Isr + Sc++ pbar anti-D*0 pi- + CC +# e+e- -> Gamma_Isr + Sc+ pbar D*- pi+ + CC +# e+e- -> Gamma_Isr + Sc+ nbar anti-D*0 pi- + CC +# e+e- -> Gamma_Isr + Sc0 nbar D*- pi+ + CC + +# Decays of final state Lc: pkpi +# Decays of final state D*0: D0 pi0 +# Decays of final state D*+: D0 pi+ +# Decays of final state D0: K pi +# Decays of final state D+: K pi pi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 anti-p- D-2 PHSP; +1.0 Sc+1 anti-p- anti-D02 PHSP; +1.0 Sc+1 anti-n0 D-2 PHSP; +1.0 Sc01 anti-n0 anti-D02 PHSP; + +1.0 Sc++1 anti-p- D*-2 PHSP; +1.0 Sc+1 anti-p- anti-D*02 PHSP; +1.0 Sc+1 anti-n0 D*-2 PHSP; +1.0 Sc01 anti-n0 anti-D*02 PHSP; + +1.0 Sc--1 p+ D+2 PHSP; +1.0 Sc-1 p+ D02 PHSP; +1.0 Sc-1 n0 D+2 PHSP; +1.0 anti-Sc01 n0 D02 PHSP; + +1.0 Sc--1 p+ D*+2 PHSP; +1.0 Sc-1 p+ D*02 PHSP; +1.0 Sc-1 n0 D*+2 PHSP; +1.0 anti-Sc01 n0 D*02 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScND_Lc9301mdc6000_do3000.dec b/BaBar_2014/ISR_aliasv3_vph148_ScND_Lc9301mdc6000_do3000.dec new file mode 100644 index 0000000..5b9ec91 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScND_Lc9301mdc6000_do3000.dec @@ -0,0 +1,8256 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ pbar D- + CC +# e+e- -> Gamma_Isr + Sc+ pbar anti-D0 + CC +# e+e- -> Gamma_Isr + Sc+ nbar D- + CC +# e+e- -> Gamma_Isr + Sc0 nbar anti-D0 + CC + +# e+e- -> Gamma_Isr + Sc++ pbar D*- + CC +# e+e- -> Gamma_Isr + Sc+ pbar anti-D*0 + CC +# e+e- -> Gamma_Isr + Sc+ nbar D*- + CC +# e+e- -> Gamma_Isr + Sc0 nbar anti-D*0 + CC +# +# Decays of final state Lc: pkpi +# Decays of final state D*0: D0 pi0 +# Decays of final state D*+: D0 pi+ +# Decays of final state D0: K pi +# Decays of final state D+: K pi pi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 anti-p- D-2 PHSP; +1.0 Sc+1 anti-p- anti-D02 PHSP; +1.0 Sc+1 anti-n0 D-2 PHSP; +1.0 Sc01 anti-n0 anti-D02 PHSP; + +1.0 Sc++1 anti-p- D*-2 PHSP; +1.0 Sc+1 anti-p- anti-D*02 PHSP; +1.0 Sc+1 anti-n0 D*-2 PHSP; +1.0 Sc01 anti-n0 anti-D*02 PHSP; + +1.0 Sc--1 p+ D+2 PHSP; +1.0 Sc-1 p+ D02 PHSP; +1.0 Sc-1 n0 D+2 PHSP; +1.0 anti-Sc01 n0 D02 PHSP; + +1.0 Sc--1 p+ D*+2 PHSP; +1.0 Sc-1 p+ D*02 PHSP; +1.0 Sc-1 n0 D*+2 PHSP; +1.0 anti-Sc01 n0 D*02 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScSc1pi_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_ScSc1pi_Lc9301mLc9300.dec new file mode 100644 index 0000000..9d42ef1 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScSc1pi_Lc9301mLc9300.dec @@ -0,0 +1,8254 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ Sc-- pi0 +# e+e- -> Gamma_Isr + Sc+ Sc- pi0 +# e+e- -> Gamma_Isr + Sc0 anti-Sc0 pi0 +# +# e+e- -> Gamma_Isr + Sc++ Sc- pi- +# e+e- -> Gamma_Isr + Sc+ anti-Sc0 pi- +## +# e+e- -> Gamma_Isr + Sc+ Sc-- pi+ +# e+e- -> Gamma_Isr + Sc0 Sc- pi+ +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 Sc--2 pi0 PHSP; +1.0 Sc++2 Sc--1 pi0 PHSP; +1.0 Sc+1 Sc-2 pi0 PHSP; +1.0 Sc+2 Sc-1 pi0 PHSP; +1.0 Sc01 anti-Sc02 pi0 PHSP; +1.0 Sc02 anti-Sc01 pi0 PHSP; + +1.0 Sc++1 Sc-2 pi- PHSP; +1.0 Sc++2 Sc-1 pi- PHSP; +1.0 Sc+1 anti-Sc02 pi- PHSP; +1.0 Sc+2 anti-Sc01 pi- PHSP; + +1.0 Sc+1 Sc--2 pi+ PHSP; +1.0 Sc+2 Sc--1 pi+ PHSP; +1.0 Sc01 Sc-2 pi+ PHSP; +1.0 Sc02 Sc-1 pi+ PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScSc1pi_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_ScSc1pi_Lc9301mLc9301.dec new file mode 100644 index 0000000..2367f2e --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScSc1pi_Lc9301mLc9301.dec @@ -0,0 +1,8254 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ Sc-- pi0 +# e+e- -> Gamma_Isr + Sc+ Sc- pi0 +# e+e- -> Gamma_Isr + Sc0 anti-Sc0 pi0 +# +# e+e- -> Gamma_Isr + Sc++ Sc- pi- +# e+e- -> Gamma_Isr + Sc+ anti-Sc0 pi- +## +# e+e- -> Gamma_Isr + Sc+ Sc-- pi+ +# e+e- -> Gamma_Isr + Sc0 Sc- pi+ +# Decays of final state Lc's: pkpi vs pkpi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 Sc--2 pi0 PHSP; +1.0 Sc++2 Sc--1 pi0 PHSP; +1.0 Sc+1 Sc-2 pi0 PHSP; +1.0 Sc+2 Sc-1 pi0 PHSP; +1.0 Sc01 anti-Sc02 pi0 PHSP; +1.0 Sc02 anti-Sc01 pi0 PHSP; + +1.0 Sc++1 Sc-2 pi- PHSP; +1.0 Sc++2 Sc-1 pi- PHSP; +1.0 Sc+1 anti-Sc02 pi- PHSP; +1.0 Sc+2 anti-Sc01 pi- PHSP; + +1.0 Sc+1 Sc--2 pi+ PHSP; +1.0 Sc+2 Sc--1 pi+ PHSP; +1.0 Sc01 Sc-2 pi+ PHSP; +1.0 Sc02 Sc-1 pi+ PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScSc_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_ScSc_Lc9301mLc9300.dec new file mode 100644 index 0000000..a22a580 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScSc_Lc9301mLc9300.dec @@ -0,0 +1,8239 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ Sc-- +# e+e- -> Gamma_Isr + Sc+ Sc- +# e+e- -> Gamma_Isr + Sc0 anti-Sc0 +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 Sc--2 PHSP; +1.0 Sc++2 Sc--1 PHSP; +1.0 Sc+1 Sc-2 PHSP; +1.0 Sc+2 Sc-1 PHSP; +1.0 Sc01 anti-Sc02 PHSP; +1.0 Sc02 anti-Sc01 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScSc_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_ScSc_Lc9301mLc9301.dec new file mode 100644 index 0000000..ea1b96b --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScSc_Lc9301mLc9301.dec @@ -0,0 +1,8239 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ Sc-- +# e+e- -> Gamma_Isr + Sc+ Sc- +# e+e- -> Gamma_Isr + Sc0 anti-Sc0 +# +# Decays of final state Lc's: pkpi vs pkpi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 Sc--2 PHSP; +1.0 Sc++2 Sc--1 PHSP; +1.0 Sc+1 Sc-2 PHSP; +1.0 Sc+2 Sc-1 PHSP; +1.0 Sc01 anti-Sc02 PHSP; +1.0 Sc02 anti-Sc01 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScXcK_Lc9301mXc9400_Xc9401.dec b/BaBar_2014/ISR_aliasv3_vph148_ScXcK_Lc9301mXc9400_Xc9401.dec new file mode 100644 index 0000000..07f8306 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScXcK_Lc9301mXc9400_Xc9401.dec @@ -0,0 +1,8252 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ Xc- K- + CC +# e+e- -> Gamma_Isr + Sc+ Xc- Ks + CC +# e+e- -> Gamma_Isr + Sc+ anti-Xc0 K- + CC +# e+e- -> Gamma_Isr + Sc0 anti-Xc0 Ks + CC +# +# Decays of final state Lc: pkpi +# Decays of final state Xc: cocktail +# Decays of final state K0: pi+pi- +# Decays of final state K*0: K+pi- +# Decays of final state K*-: K0(->pi+pi-) pi- +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 Xc-2 K- PHSP; +1.0 Sc+1 Xc-2 K0-pp PHSP; +1.0 Sc+1 anti-Xc02 K- PHSP; +1.0 Sc01 anti-Xc02 K0pp PHSP; + +1.0 Sc--1 Xc+2 K+ PHSP; +1.0 Sc-1 Xc+2 K0-pp PHSP; +1.0 Sc-1 Xc02 K+ PHSP; +1.0 anti-Sc01 Xc02 K0pp PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +# For Reference: 9400 and 9401 are Xi_c cocktail +Decay Xc+2 +1.0 Xc+_9400 PHSP; +Enddecay +CDecay Xc-2 + +Decay Xc02 +1.0 Xc0_9401 PHSP; +Enddecay +CDecay anti-Xc02 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScXcKstr_Lc9301mXc9400_Xc9401.dec b/BaBar_2014/ISR_aliasv3_vph148_ScXcKstr_Lc9301mXc9400_Xc9401.dec new file mode 100644 index 0000000..82d4318 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScXcKstr_Lc9301mXc9400_Xc9401.dec @@ -0,0 +1,8252 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc++ Xc- K*- + CC +# e+e- -> Gamma_Isr + Sc+ Xc- K*0 + CC +# e+e- -> Gamma_Isr + Sc+ anti-Xc0 K*- + CC +# e+e- -> Gamma_Isr + Sc0 anti-Xc0 K*0 + CC +# +# Decays of final state Lc: pkpi +# Decays of final state Xc: cocktail +# Decays of final state K0: pi+pi- +# Decays of final state K*0: K+pi- +# Decays of final state K*-: K0(->pi+pi-) pi- +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc++1 Xc-2 K*-K0ppp PHSP; +1.0 Sc+1 Xc-2 K*0-Kp PHSP; +1.0 Sc+1 anti-Xc02 K*-K0ppp PHSP; +1.0 Sc01 anti-Xc02 K*0-Kp PHSP; + +1.0 Sc--1 Xc+2 K*+K0ppp PHSP; +1.0 Sc-1 Xc+2 K*0-Kp PHSP; +1.0 Sc-1 Xc02 K*+K0ppp PHSP; +1.0 anti-Sc01 Xc02 K*0-Kp PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +# For Reference: 9400 and 9401 are Xi_c cocktail +Decay Xc+2 +1.0 Xc+_9400 PHSP; +Enddecay +CDecay Xc-2 + +Decay Xc02 +1.0 Xc0_9401 PHSP; +Enddecay +CDecay anti-Xc02 + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScstrSc1pi_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc1pi_Lc9301mLc9300.dec new file mode 100644 index 0000000..6590983 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc1pi_Lc9301mLc9300.dec @@ -0,0 +1,8283 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc*++ Sc-- pi0 +# e+e- -> Gamma_Isr + Sc*+ Sc- pi0 +# e+e- -> Gamma_Isr + Sc*0 anti-Sc0 pi0 +# +# e+e- -> Gamma_Isr + Sc*++ Sc- pi- +# e+e- -> Gamma_Isr + Sc*+ anti-Sc0 pi- +## +# e+e- -> Gamma_Isr + Sc*+ Sc-- pi+ +# e+e- -> Gamma_Isr + Sc*0 Sc- pi+ +# +# e+e- -> Gamma_Isr + Sc++ Sc*-- pi0 +# e+e- -> Gamma_Isr + Sc+ Sc*- pi0 +# e+e- -> Gamma_Isr + Sc0 anti-Sc*0 pi0 +# +# e+e- -> Gamma_Isr + Sc++ Sc- pi- +# e+e- -> Gamma_Isr + Sc+ anti-Sc*0 pi- +# +# e+e- -> Gamma_Isr + Sc+ Sc*-- pi+ +# e+e- -> Gamma_Isr + Sc0 Sc*- pi+ +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc*++1 Sc--2 pi0 PHSP; +1.0 Sc*++2 Sc--1 pi0 PHSP; +1.0 Sc*+1 Sc-2 pi0 PHSP; +1.0 Sc*+2 Sc-1 pi0 PHSP; +1.0 Sc*01 anti-Sc02 pi0 PHSP; +1.0 Sc*02 anti-Sc01 pi0 PHSP; + +1.0 Sc*++1 Sc-2 pi- PHSP; +1.0 Sc*++2 Sc-1 pi- PHSP; +1.0 Sc*+1 anti-Sc02 pi- PHSP; +1.0 Sc*+2 anti-Sc01 pi- PHSP; + +1.0 Sc*+1 Sc--2 pi+ PHSP; +1.0 Sc*+2 Sc--1 pi+ PHSP; +1.0 Sc*01 Sc-2 pi+ PHSP; +1.0 Sc*02 Sc-1 pi+ PHSP; + +1.0 Sc++1 Sc*--2 pi0 PHSP; +1.0 Sc++2 Sc*--1 pi0 PHSP; +1.0 Sc+1 Sc*-2 pi0 PHSP; +1.0 Sc+2 Sc*-1 pi0 PHSP; +1.0 Sc01 anti-Sc*02 pi0 PHSP; +1.0 Sc02 anti-Sc*01 pi0 PHSP; + +1.0 Sc+1 Sc*--2 pi+ PHSP; +1.0 Sc+2 Sc*--1 pi+ PHSP; +1.0 Sc01 Sc*-2 pi+ PHSP; +1.0 Sc02 Sc*-1 pi+ PHSP; + +1.0 Sc++1 Sc*-2 pi- PHSP; +1.0 Sc++2 Sc*-1 pi- PHSP; +1.0 Sc+1 anti-Sc*02 pi- PHSP; +1.0 Sc+2 anti-Sc*01 pi- PHSP; + +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScstrSc1pi_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc1pi_Lc9301mLc9301.dec new file mode 100644 index 0000000..b1de84a --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc1pi_Lc9301mLc9301.dec @@ -0,0 +1,8283 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc*++ Sc-- pi0 +# e+e- -> Gamma_Isr + Sc*+ Sc- pi0 +# e+e- -> Gamma_Isr + Sc*0 anti-Sc0 pi0 +# +# e+e- -> Gamma_Isr + Sc*++ Sc- pi- +# e+e- -> Gamma_Isr + Sc*+ anti-Sc0 pi- +## +# e+e- -> Gamma_Isr + Sc*+ Sc-- pi+ +# e+e- -> Gamma_Isr + Sc*0 Sc- pi+ +# +# e+e- -> Gamma_Isr + Sc++ Sc*-- pi0 +# e+e- -> Gamma_Isr + Sc+ Sc*- pi0 +# e+e- -> Gamma_Isr + Sc0 anti-Sc*0 pi0 +# +# e+e- -> Gamma_Isr + Sc++ Sc- pi- +# e+e- -> Gamma_Isr + Sc+ anti-Sc*0 pi- +# +# e+e- -> Gamma_Isr + Sc+ Sc*-- pi+ +# e+e- -> Gamma_Isr + Sc0 Sc*- pi+ +# +# Decays of final state Lc's: pkpi vs pKpi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc*++1 Sc--2 pi0 PHSP; +1.0 Sc*++2 Sc--1 pi0 PHSP; +1.0 Sc*+1 Sc-2 pi0 PHSP; +1.0 Sc*+2 Sc-1 pi0 PHSP; +1.0 Sc*01 anti-Sc02 pi0 PHSP; +1.0 Sc*02 anti-Sc01 pi0 PHSP; + +1.0 Sc*++1 Sc-2 pi- PHSP; +1.0 Sc*++2 Sc-1 pi- PHSP; +1.0 Sc*+1 anti-Sc02 pi- PHSP; +1.0 Sc*+2 anti-Sc01 pi- PHSP; + +1.0 Sc*+1 Sc--2 pi+ PHSP; +1.0 Sc*+2 Sc--1 pi+ PHSP; +1.0 Sc*01 Sc-2 pi+ PHSP; +1.0 Sc*02 Sc-1 pi+ PHSP; + +1.0 Sc++1 Sc*--2 pi0 PHSP; +1.0 Sc++2 Sc*--1 pi0 PHSP; +1.0 Sc+1 Sc*-2 pi0 PHSP; +1.0 Sc+2 Sc*-1 pi0 PHSP; +1.0 Sc01 anti-Sc*02 pi0 PHSP; +1.0 Sc02 anti-Sc*01 pi0 PHSP; + +1.0 Sc+1 Sc*--2 pi+ PHSP; +1.0 Sc+2 Sc*--1 pi+ PHSP; +1.0 Sc01 Sc*-2 pi+ PHSP; +1.0 Sc02 Sc*-1 pi+ PHSP; + +1.0 Sc++1 Sc*-2 pi- PHSP; +1.0 Sc++2 Sc*-1 pi- PHSP; +1.0 Sc+1 anti-Sc*02 pi- PHSP; +1.0 Sc+2 anti-Sc*01 pi- PHSP; + +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScstrSc_Lc9301mLc9300.dec b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc_Lc9301mLc9300.dec new file mode 100644 index 0000000..daf52cc --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc_Lc9301mLc9300.dec @@ -0,0 +1,8246 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc*++ Sc-- + CC +# e+e- -> Gamma_Isr + Sc*+ Sc- + CC +# e+e- -> Gamma_Isr + Sc*0 anti-Sc0 + CC +# +# Decays of final state Lc's: pkpi vs cocktail +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc*++1 Sc--2 PHSP; +1.0 Sc*++2 Sc--1 PHSP; +1.0 Sc*+1 Sc-2 PHSP; +1.0 Sc*+2 Sc-1 PHSP; +1.0 Sc*01 anti-Sc02 PHSP; +1.0 Sc*02 anti-Sc01 PHSP; + +1.0 Sc++1 Sc*--2 PHSP; +1.0 Sc++2 Sc*--1 PHSP; +1.0 Sc+1 Sc*-2 PHSP; +1.0 Sc+2 Sc*-1 PHSP; +1.0 Sc01 anti-Sc*02 PHSP; +1.0 Sc02 anti-Sc*01 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9300 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph148_ScstrSc_Lc9301mLc9301.dec b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc_Lc9301mLc9301.dec new file mode 100644 index 0000000..3f7f27c --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph148_ScstrSc_Lc9301mLc9301.dec @@ -0,0 +1,8246 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 18, 200e +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b + + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +########################################################################### +# Lambda C +# rootSeff = 4.75 5.0 5.25 5.5 5.75 6.0 6.25 6.5 6.675 7.0 7.25 7.5 +# e+e- -> Gamma_Isr + Sc*++ Sc-- + CC +# e+e- -> Gamma_Isr + Sc*+ Sc- + CC +# e+e- -> Gamma_Isr + Sc*0 anti-Sc0 + CC +# +# Decays of final state Lc's: pkpi vs pkpi +########################################################################### +Decay vpho +#1.0 vphoton148 PHSP; +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay spike_475_750 +1.0 Sc*++1 Sc--2 PHSP; +1.0 Sc*++2 Sc--1 PHSP; +1.0 Sc*+1 Sc-2 PHSP; +1.0 Sc*+2 Sc-1 PHSP; +1.0 Sc*01 anti-Sc02 PHSP; +1.0 Sc*02 anti-Sc01 PHSP; + +1.0 Sc++1 Sc*--2 PHSP; +1.0 Sc++2 Sc*--1 PHSP; +1.0 Sc+1 Sc*-2 PHSP; +1.0 Sc+2 Sc*-1 PHSP; +1.0 Sc01 anti-Sc*02 PHSP; +1.0 Sc02 anti-Sc*01 PHSP; +Enddecay + +# For Reference: 9301 = pkpi, 9300 = cocktail +Decay Lc+1 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-1 + +Decay Lc+2 +1.0 Lc+_9301 PHSP; +Enddecay +CDecay Lc-2 + + +##################### +# +# For Charm Baryon Events, if there is a D/D* this is a background study +# like "Lc p D(*)" and we want to treat it as a signal mode giving +# the clearest signal. For Charm Baryon vs Charm Baryon, these decays +# are not used. +# +##################### + +# D0 -> Kpi +Decay D01 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_3000 PHSP; +Enddecay +CDecay anti-D02 + +# D+ -> Kpipi +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+6000 PHSP; +Enddecay +CDecay D-2 + +Decay D*+1 +1.0 D*+1_neu PHSP; +Enddecay +CDecay D*-1 + +Decay D*+2 +1.0 D*+2_neu PHSP; +Enddecay +CDecay D*-2 + +Decay D*01 +1.0 D*01_pi0 PHSP; +Enddecay +CDecay anti-D*01 + +Decay D*02 +1.0 D*02_pi0 PHSP; +Enddecay +CDecay anti-D*02 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_D0KmDs_dc6000_do9202mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_D0KmDs_dc6000_do9202mds9014.dec new file mode 100644 index 0000000..9d5f2df --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_D0KmDs_dc6000_do9202mds9014.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + anti-D0(*) K- Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (PhiPi+K*K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 anti-D01 K- D_s+2 PHSP; +3.0 anti-D*01 K- D_s+2 PHSP; +3.0 anti-D01 K- D_s*+2 PHSP; +6.0 anti-D*01 K- D_s*+2 PHSP; + +1.0 D01 K+ D_s-2 PHSP; +3.0 D*01 K+ D_s-2 PHSP; +3.0 D01 K+ D_s*-2 PHSP; +6.0 D*01 K+ D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_D0KmDs_dc6000_do9202mds9015.dec b/BaBar_2014/ISR_aliasv3_vph149_D0KmDs_dc6000_do9202mds9015.dec new file mode 100644 index 0000000..dfcfba9 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_D0KmDs_dc6000_do9202mds9015.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + anti-D0(*) K- Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (lept 1pr + semi 1pr + K0K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 anti-D01 K- D_s+2 PHSP; +3.0 anti-D*01 K- D_s+2 PHSP; +3.0 anti-D01 K- D_s*+2 PHSP; +6.0 anti-D*01 K- D_s*+2 PHSP; + +1.0 D01 K+ D_s-2 PHSP; +3.0 D*01 K+ D_s-2 PHSP; +3.0 D01 K+ D_s*-2 PHSP; +6.0 D*01 K+ D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9015 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_D0KstrmDs_dc6000_do9202mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_D0KstrmDs_dc6000_do9202mds9014.dec new file mode 100644 index 0000000..e50238f --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_D0KstrmDs_dc6000_do9202mds9014.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + anti-D0(*) K*- Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (PhiPi+K*K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 anti-D01 K*-K0ppp D_s+2 PHSP; +3.0 anti-D*01 K*-K0ppp D_s+2 PHSP; +3.0 anti-D01 K*-K0ppp D_s*+2 PHSP; +6.0 anti-D*01 K*-K0ppp D_s*+2 PHSP; + +1.0 D01 K*+K0ppp D_s-2 PHSP; +3.0 D*01 K*+K0ppp D_s-2 PHSP; +3.0 D01 K*+K0ppp D_s*-2 PHSP; +6.0 D*01 K*+K0ppp D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_D0KstrmDs_dc6000_do9202mds9015.dec b/BaBar_2014/ISR_aliasv3_vph149_D0KstrmDs_dc6000_do9202mds9015.dec new file mode 100644 index 0000000..25f4248 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_D0KstrmDs_dc6000_do9202mds9015.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + anti-D0(*) K*- Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (lept 1pr + semi 1pr + K0K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 anti-D01 K*-K0ppp D_s+2 PHSP; +3.0 anti-D*01 K*-K0ppp D_s+2 PHSP; +3.0 anti-D01 K*-K0ppp D_s*+2 PHSP; +6.0 anti-D*01 K*-K0ppp D_s*+2 PHSP; + +1.0 D01 K*+K0ppp D_s-2 PHSP; +3.0 D*01 K*+K0ppp D_s-2 PHSP; +3.0 D01 K*+K0ppp D_s*-2 PHSP; +6.0 D*01 K*+K0ppp D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9015 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DcKsDs_dc6000_do9202mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_DcKsDs_dc6000_do9202mds9014.dec new file mode 100644 index 0000000..ca2a71e --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DcKsDs_dc6000_do9202mds9014.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + D(*)- Ks Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (PhiPi+K*K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D-1 K0pp D_s+2 PHSP; +3.0 D*-1 K0pp D_s+2 PHSP; +3.0 D-1 K0pp D_s*+2 PHSP; +6.0 D*-1 K0pp D_s*+2 PHSP; + +1.0 D+1 K0pp D_s-2 PHSP; +3.0 D*+1 K0pp D_s-2 PHSP; +3.0 D+1 K0pp D_s*-2 PHSP; +6.0 D*+1 K0pp D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DcKsDs_dc6000_do9202mds9015.dec b/BaBar_2014/ISR_aliasv3_vph149_DcKsDs_dc6000_do9202mds9015.dec new file mode 100644 index 0000000..3d74554 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DcKsDs_dc6000_do9202mds9015.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + D(*)- Ks Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (lept 1pr + semi 1pr + K0K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D-1 K0pp D_s+2 PHSP; +3.0 D*-1 K0pp D_s+2 PHSP; +3.0 D-1 K0pp D_s*+2 PHSP; +6.0 D*-1 K0pp D_s*+2 PHSP; + +1.0 D+1 K0pp D_s-2 PHSP; +3.0 D*+1 K0pp D_s-2 PHSP; +3.0 D+1 K0pp D_s*-2 PHSP; +6.0 D*+1 K0pp D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9015 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DcKstr0Ds_dc6000_do9202mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_DcKstr0Ds_dc6000_do9202mds9014.dec new file mode 100644 index 0000000..c648a2c --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DcKstr0Ds_dc6000_do9202mds9014.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + D(*)- K*0 Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (PhiPi+K*K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D-1 K*0-Kp D_s+2 PHSP; +3.0 D*-1 K*0-Kp D_s+2 PHSP; +3.0 D-1 K*0-Kp D_s*+2 PHSP; +6.0 D*-1 K*0-Kp D_s*+2 PHSP; + +1.0 D+1 K*0-Kp D_s-2 PHSP; +3.0 D*+1 K*0-Kp D_s-2 PHSP; +3.0 D+1 K*0-Kp D_s*-2 PHSP; +6.0 D*+1 K*0-Kp D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DcKstr0Ds_dc6000_do9202mds9015.dec b/BaBar_2014/ISR_aliasv3_vph149_DcKstr0Ds_dc6000_do9202mds9015.dec new file mode 100644 index 0000000..a9190b0 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DcKstr0Ds_dc6000_do9202mds9015.dec @@ -0,0 +1,8237 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + D(*)- K*0 Ds(*)+ |cos_th| < 0.9 for ISR gamma +# DDs : D*Ds : DDs* : D*Ds* = 1 : 3 : 3: 6 +# +# Tag with a D and a K: D0 is Kpi,Kpipipi,Kpi0, D+ is Kpipi +# Tag Kaons: Ks->pipi K*0->Kpi K*+->Kspi->pipipi +# Recoil Ds: (lept 1pr + semi 1pr + K0K) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D-1 K*0-Kp D_s+2 PHSP; +3.0 D*-1 K*0-Kp D_s+2 PHSP; +3.0 D-1 K*0-Kp D_s*+2 PHSP; +6.0 D*-1 K*0-Kp D_s*+2 PHSP; + +1.0 D+1 K*0-Kp D_s-2 PHSP; +3.0 D*+1 K*0-Kp D_s-2 PHSP; +3.0 D+1 K*0-Kp D_s*-2 PHSP; +6.0 D*+1 K*0-Kp D_s*-2 PHSP; +Enddecay + +#Tag with D K: Specify the D0 and D+ here. +Decay D01 +1.0 D0_9202 PHSP; +Enddecay +CDecay anti-D01 + +Decay D+1 +1.0 D+6000 PHSP; +Enddecay +CDecay D-1 + +# "2" is the Recoil Ds +# (PhiPi+K*K)=9014 (lept 1pr + semi 1pr + K0K)=9015 +Decay D_s+2 +1.0 D_s+9015 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds0001mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds0001mds9000.dec new file mode 100644 index 0000000..3e617fd --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds0001mds9000.dec @@ -0,0 +1,8238 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: Phipi +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- PHSP; + + +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0001 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds0008mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds0008mds9000.dec new file mode 100644 index 0000000..948f26a --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds0008mds9000.dec @@ -0,0 +1,8238 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: K*K +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- PHSP; + + +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0008 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds9014mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds9014mds9014.dec new file mode 100644 index 0000000..58c9a0f --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds9014mds9014.dec @@ -0,0 +1,8238 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: (Phipi + K*K) +# Recoil Ds: (Phipi + K*K) +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- PHSP; + + +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds9014mds9015.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds9014mds9015.dec new file mode 100644 index 0000000..2e2c893 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs12pi_ds9014mds9015.dec @@ -0,0 +1,8253 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: PhiPi+K*K +# Recoil Ds: (lept 1pr + semi 1pr + K0K) +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# (lept 1pr + semi 1pr + K0K)=9015 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9015 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds0001mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds0001mds9000.dec new file mode 100644 index 0000000..dd57df5 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds0001mds9000.dec @@ -0,0 +1,8258 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: PhiPi +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- PHSP; + +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0001 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds0008mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds0008mds9000.dec new file mode 100644 index 0000000..e94301e --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds0008mds9000.dec @@ -0,0 +1,8258 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: K*K +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- PHSP; + +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0008 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds9014mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds9014mds9014.dec new file mode 100644 index 0000000..4bc66ec --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs34pi_ds9014mds9014.dec @@ -0,0 +1,8258 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: PhiPi+K*K +# Recoil Ds: PhiPi+K*K +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- PHSP; + +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds0001mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds0001mds9000.dec new file mode 100644 index 0000000..a7844b4 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds0001mds9000.dec @@ -0,0 +1,8276 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: PhiPi +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0001 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds0008mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds0008mds9000.dec new file mode 100644 index 0000000..459c3d4 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds0008mds9000.dec @@ -0,0 +1,8276 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: K*K +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0008 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds9014mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds9014mds9014.dec new file mode 100644 index 0000000..b2f0de5 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs56pi_ds9014mds9014.dec @@ -0,0 +1,8276 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi0 pi0 pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi0 pi0 pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi0 pi0 |cos_th| < 0.9 for ISR gamma +# e+e- -> Gamma_Isr + Ds(*) Ds(*) pi+ pi- pi+ pi- pi+ pi- |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: PhiPi+K*K +# Recoil Ds: PhiPi+K*K +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi0 PHSP; + +1.0 D_s+1 D_s-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi0 pi0 pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi0 pi0 pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi0 pi0 pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi0 pi0 PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi0 pi0 PHSP; + +1.0 D_s+1 D_s-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.0 D_s+2 D_s-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*+1 D_s-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*-1 D_s+2 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*+2 D_s-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +1.5 D_s*-2 D_s+1 pi+ pi- pi+ pi- pi+ pi- PHSP; +3.0 D_s*+1 D_s*-2 pi+ pi- pi+ pi- pi+ pi- PHSP; +3.0 D_s*+2 D_s*-1 pi+ pi- pi+ pi- pi+ pi- PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds0001mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds0001mds9000.dec new file mode 100644 index 0000000..1c85a51 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds0001mds9000.dec @@ -0,0 +1,8217 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) |cos_th| < 0.9 for ISR gamma +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: PhiPi +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +1.0 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; + +1.5 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; + +3.0 D_s*+1 D_s*-2 PHSP; +3.0 D_s*+2 D_s*-1 PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0001 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds0008mds9000.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds0008mds9000.dec new file mode 100644 index 0000000..1ca47bd --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds0008mds9000.dec @@ -0,0 +1,8217 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) |cos_th| < 0.9 for ISR gamma +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: K*K +# Recoil Ds: Cocktail +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +1.0 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; + +1.5 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; + +3.0 D_s*+1 D_s*-2 PHSP; +3.0 D_s*+2 D_s*-1 PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+0008 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds9014mds9014.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds9014mds9014.dec new file mode 100644 index 0000000..dfc1d80 --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds9014mds9014.dec @@ -0,0 +1,8217 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi Kpipi0 K3pi = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) |cos_th| < 0.9 for ISR gamma +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: (Phipi + K*K) +# Recoil Ds: (Phipi + K*K) +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +1.0 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; + +1.5 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; + +3.0 D_s*+1 D_s*-2 PHSP; +3.0 D_s*+2 D_s*-1 PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds9014mds9015.dec b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds9014mds9015.dec new file mode 100644 index 0000000..60c0c8c --- /dev/null +++ b/BaBar_2014/ISR_aliasv3_vph149_DsDs_ds9014mds9015.dec @@ -0,0 +1,8235 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000, 2001 +# V2 Jun 29, 2001 +# V3 Dec 20, 2002 +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production +#conserve Alias'es by commenting out vphotons here and in their decays +#Alias vphoton001 vpho +#Alias vphoton002 vpho +#Alias vphoton003 vpho +#Alias vphoton004 vpho +#Alias vphoton005 vpho +#Alias vphoton006 vpho +#Alias vphoton007 vpho +#Alias vphoton008 vpho +#Alias vphoton009 vpho +#Alias vphoton010 vpho +#Alias vphoton011 vpho +#Alias vphoton012 vpho +#Alias vphoton013 vpho +#Alias vphoton014 vpho +#Alias vphoton015 vpho +#Alias vphoton016 vpho +#Alias vphoton017 vpho +#Alias vphoton018 vpho +#Alias vphoton019 vpho +#Alias vphoton020 vpho +#Alias vphoton021 vpho +#Alias vphoton022 vpho +#Alias vphoton023 vpho +#Alias vphoton024 vpho +#Alias vphoton025 vpho +#Alias vphoton026 vpho +#Alias vphoton027 vpho +#Alias vphoton028 vpho +#Alias vphoton029 vpho +#Alias vphoton030 vpho +#Alias vphoton031 vpho +#Alias vphoton032 vpho +#Alias vphoton033 vpho +#Alias vphoton034 vpho +#Alias vphoton035 vpho +#Alias vphoton036 vpho +#Alias vphoton037 vpho +#Alias vphoton038 vpho +#Alias vphoton039 vpho +#Alias vphoton040 vpho +#Alias vphoton041 vpho +#Alias vphoton042 vpho +#Alias vphoton043 vpho +#Alias vphoton044 vpho +#Alias vphoton045 vpho +#Alias vphoton046 vpho +#Alias vphoton047 vpho +#Alias vphoton048 vpho +#Alias vphoton049 vpho +#Alias vphoton050 vpho +#Alias vphoton051 vpho +#Alias vphoton052 vpho +#Alias vphoton053 vpho +#Alias vphoton054 vpho +#Alias vphoton055 vpho +#Alias vphoton056 vpho +#Alias vphoton057 vpho +#Alias vphoton058 vpho +#Alias vphoton059 vpho +#Alias vphoton060 vpho +#Alias vphoton061 vpho +#Alias vphoton062 vpho +#Alias vphoton063 vpho +#Alias vphoton064 vpho +#Alias vphoton065 vpho +#Alias vphoton066 vpho +#Alias vphoton067 vpho +#Alias vphoton068 vpho +#Alias vphoton069 vpho +#Alias vphoton070 vpho +#Alias vphoton071 vpho +#Alias vphoton072 vpho +#Alias vphoton073 vpho +#Alias vphoton074 vpho +#Alias vphoton075 vpho +#Alias vphoton076 vpho +#Alias vphoton077 vpho +#Alias vphoton078 vpho +#Alias vphoton079 vpho +#Alias vphoton080 vpho +#Alias vphoton081 vpho +#Alias vphoton082 vpho +#Alias vphoton083 vpho +#Alias vphoton084 vpho +#Alias vphoton085 vpho +#Alias vphoton086 vpho +#Alias vphoton087 vpho +#Alias vphoton088 vpho +#Alias vphoton089 vpho +#Alias vphoton090 vpho +#Alias vphoton091 vpho +#Alias vphoton092 vpho +#Alias vphoton093 vpho +#Alias vphoton094 vpho +#Alias vphoton095 vpho +#Alias vphoton096 vpho +#Alias vphoton097 vpho +#Alias vphoton098 vpho +#Alias vphoton099 vpho +#Alias vphoton100 vpho +#Alias vphoton101 vpho +#Alias vphoton102 vpho +#Alias vphoton103 vpho +#Alias vphoton104 vpho +#Alias vphoton105 vpho +#Alias vphoton106 vpho +#Alias vphoton107 vpho +#Alias vphoton108 vpho +#Alias vphoton109 vpho +#Alias vphoton110 vpho +#Alias vphoton111 vpho +#Alias vphoton112 vpho +#Alias vphoton113 vpho +#Alias vphoton114 vpho +#Alias vphoton115 vpho +#Alias vphoton116 vpho +#Alias vphoton117 vpho +#Alias vphoton118 vpho +#Alias vphoton119 vpho +#Alias vphoton120 vpho +#Alias vphoton121 vpho +#Alias vphoton122 vpho +#Alias vphoton123 vpho +#Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho +Alias vphoton141 vpho +Alias vphoton142 vpho +Alias vphoton143 vpho +Alias vphoton144 vpho +Alias vphoton145 vpho +Alias vphoton146 vpho +Alias vphoton147 vpho +Alias vphoton148 vpho +Alias vphoton149 vpho + + +####################################################################################### +# +# Hijacked Vector particle for spike line shape +Alias spike_42_72 h_b(3P) +Alias spike_42_42 h_b(2P) +Alias spike_475_750 h_b +Alias spike_400_750 Upsilon(5S) + + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0_1D0_2 psi(4040) +Alias psi(4040)D*0_2D0_1 psi(4040) +Alias psi(4040)D*0_3D0_4 psi(4040) +Alias psi(4040)D*0_4D0_3 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0_1D0_2 psi(4160) +Alias psi(4160)D*0_2D0_1 psi(4160) +Alias psi(4160)D*0_3D0_4 psi(4160) +Alias psi(4160)D*0_4D0_3 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0_1D0_2 psi(4415) +Alias psi(4415)D*0_2D0_1 psi(4415) +Alias psi(4415)D*0_3D0_4 psi(4415) +Alias psi(4415)D*0_4D0_3 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+_1D-_2 psi(4040) +Alias psi(4040)D*+_1_50D-_2 psi(4040) +Alias psi(4040)D*+_1_chgD-_2 psi(4040) +Alias psi(4040)D*+_1_neuD-_2 psi(4040) +Alias psi(4040)D*+_2D-_1 psi(4040) +Alias psi(4040)D*+_2_50D-_1 psi(4040) +Alias psi(4040)D*+_2_80D-_1 psi(4040) +Alias psi(4040)D*+_2_chgD-_1 psi(4040) +Alias psi(4040)D*+_2_neuD-_1 psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) +Alias psi(4040)D*+_50D*-10 psi(4040) +Alias psi(4040)D*+_50D*-12 psi(4040) +Alias psi(4040)D*+_50D*-32 psi(4040) +Alias psi(4040)D*+D*-_50_10 psi(4040) +Alias psi(4040)D*+D*-_50_12 psi(4040) +Alias psi(4040)D*+D*-_50_32 psi(4040) +Alias psi(4040)D*+_80D*-10 psi(4040) +Alias psi(4040)D*+_80D*-12 psi(4040) +Alias psi(4040)D*+_80D*-32 psi(4040) +Alias psi(4040)D*+D*-_80_10 psi(4040) +Alias psi(4040)D*+D*-_80_12 psi(4040) +Alias psi(4040)D*+D*-_80_32 psi(4040) +Alias psi(4040)D*+_50D*-_50_10 psi(4040) +Alias psi(4040)D*+_50D*-_50_12 psi(4040) +Alias psi(4040)D*+_50D*-_50_32 psi(4040) +Alias psi(4040)D*+_chgD*-10 psi(4040) +Alias psi(4040)D*+_chgD*-12 psi(4040) +Alias psi(4040)D*+_chgD*-32 psi(4040) +Alias psi(4040)D*+D*-_chg_10 psi(4040) +Alias psi(4040)D*+D*-_chg_12 psi(4040) +Alias psi(4040)D*+D*-_chg_32 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_10 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_12 psi(4040) +Alias psi(4040)D*+_chgD*-_chg_32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+_1D-_2 psi(4160) +Alias psi(4160)D*+_1_50D-_2 psi(4160) +Alias psi(4160)D*+_1_80D-_2 psi(4160) +Alias psi(4160)D*+_1_chgD-_2 psi(4160) +Alias psi(4160)D*+_1_neuD-_2 psi(4160) +Alias psi(4160)D*+_2D-_1 psi(4160) +Alias psi(4160)D*+_2_50D-_1 psi(4160) +Alias psi(4160)D*+_2_80D-_1 psi(4160) +Alias psi(4160)D*+_2_chgD-_1 psi(4160) +Alias psi(4160)D*+_2_neuD-_1 psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) +Alias psi(4160)D*+_50D*-10 psi(4160) +Alias psi(4160)D*+_50D*-12 psi(4160) +Alias psi(4160)D*+_50D*-32 psi(4160) +Alias psi(4160)D*+D*-_50_10 psi(4160) +Alias psi(4160)D*+D*-_50_12 psi(4160) +Alias psi(4160)D*+D*-_50_32 psi(4160) +Alias psi(4160)D*+_80D*-10 psi(4160) +Alias psi(4160)D*+_80D*-12 psi(4160) +Alias psi(4160)D*+_80D*-32 psi(4160) +Alias psi(4160)D*+D*-_80_10 psi(4160) +Alias psi(4160)D*+D*-_80_12 psi(4160) +Alias psi(4160)D*+D*-_80_32 psi(4160) +Alias psi(4160)D*+_50D*-_50_10 psi(4160) +Alias psi(4160)D*+_50D*-_50_12 psi(4160) +Alias psi(4160)D*+_50D*-_50_32 psi(4160) +Alias psi(4160)D*+_chgD*-10 psi(4160) +Alias psi(4160)D*+_chgD*-12 psi(4160) +Alias psi(4160)D*+_chgD*-32 psi(4160) +Alias psi(4160)D*+D*-_chg_10 psi(4160) +Alias psi(4160)D*+D*-_chg_12 psi(4160) +Alias psi(4160)D*+D*-_chg_32 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_10 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_12 psi(4160) +Alias psi(4160)D*+_chgD*-_chg_32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+_1D-_2 psi(4415) +Alias psi(4415)D*+_1_50D-_2 psi(4415) +Alias psi(4415)D*+_1_80D-_2 psi(4415) +Alias psi(4415)D*+_1_chgD-_2 psi(4415) +Alias psi(4415)D*+_1_neuD-_2 psi(4415) +Alias psi(4415)D*+_2D-_1 psi(4415) +Alias psi(4415)D*+_2_50D-_1 psi(4415) +Alias psi(4415)D*+_2_80D-_1 psi(4415) +Alias psi(4415)D*+_2_chgD-_1 psi(4415) +Alias psi(4415)D*+_2_neuD-_1 psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) +Alias psi(4415)D*+_50D*-10 psi(4415) +Alias psi(4415)D*+_50D*-12 psi(4415) +Alias psi(4415)D*+_50D*-32 psi(4415) +Alias psi(4415)D*+D*-_50_10 psi(4415) +Alias psi(4415)D*+D*-_50_12 psi(4415) +Alias psi(4415)D*+D*-_50_32 psi(4415) +Alias psi(4415)D*+_80D*-10 psi(4415) +Alias psi(4415)D*+_80D*-12 psi(4415) +Alias psi(4415)D*+_80D*-32 psi(4415) +Alias psi(4415)D*+D*-_80_10 psi(4415) +Alias psi(4415)D*+D*-_80_12 psi(4415) +Alias psi(4415)D*+D*-_80_32 psi(4415) +Alias psi(4415)D*+_50D*-_50_10 psi(4415) +Alias psi(4415)D*+_50D*-_50_12 psi(4415) +Alias psi(4415)D*+_50D*-_50_32 psi(4415) +Alias psi(4415)D*+_chgD*-10 psi(4415) +Alias psi(4415)D*+_chgD*-12 psi(4415) +Alias psi(4415)D*+_chgD*-32 psi(4415) +Alias psi(4415)D*+D*-_chg_10 psi(4415) +Alias psi(4415)D*+D*-_chg_12 psi(4415) +Alias psi(4415)D*+D*-_chg_32 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_10 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_12 psi(4415) +Alias psi(4415)D*+_chgD*-_chg_32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) +Alias psi(4040)D+D*0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### +# Decay 1 or 3 is the hadronic singletag side of the event +# Decay 2 or 4 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- + +# These D*+ decay to a charged D+ +Alias D*+1_chg D*+ +Alias D*+2_chg D*+ +Alias D*-1_chg D*- +Alias D*-2_chg D*- + +# These D*+ decay to a neutral D0 +Alias D*+1_neu D*+ +Alias D*+2_neu D*+ +Alias D*-1_neu D*- +Alias D*-2_neu D*- + +# These D*+ decay to D0/D+ 50%/50% +Alias D*+1_50 D*+ +Alias D*+2_50 D*+ +Alias D*-1_50 D*- +Alias D*-2_50 D*- + +# These D*+ decay to D0/D+ 80%/20% +Alias D*+1_80 D*+ +Alias D*+2_80 D*+ +Alias D*-1_80 D*- +Alias D*-2_80 D*- + +Alias D+1 D+ +Alias D+2 D+ +Alias D+3 D+ +Alias D+4 D+ +Alias D-1 D- +Alias D-2 D- +Alias D-3 D- +Alias D-4 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D*+1_chg D*-1_chg +ChargeConj D*+2_chg D*-2_chg +ChargeConj D*+1_neu D*-1_neu +ChargeConj D*+2_neu D*-2_neu +ChargeConj D*+1_50 D*-1_50 +ChargeConj D*+2_50 D*-2_50 +ChargeConj D*+1_80 D*-1_80 +ChargeConj D*+2_80 D*-2_80 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 +ChargeConj D+3 D-3 +ChargeConj D+4 D-4 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias D*03 D*0 +Alias D*04 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias anti-D*03 anti-D*0 +Alias anti-D*04 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias D03 D0 +Alias D04 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 +Alias anti-D03 anti-D0 +Alias anti-D04 anti-D0 +Alias D*01_pi0 D*0 +Alias D*02_pi0 D*0 +Alias anti-D*01_pi0 anti-D*0 +Alias anti-D*02_pi0 anti-D*0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D*03 anti-D*03 +ChargeConj D*04 anti-D*04 + +ChargeConj D*01_pi0 anti-D*01_pi0 +ChargeConj D*02_pi0 anti-D*02_pi0 + +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 +ChargeConj D03 anti-D03 +ChargeConj D04 anti-D04 + +Alias Lc+1 Lambda_c+ +Alias Lc+2 Lambda_c+ +Alias Lc-1 anti-Lambda_c- +Alias Lc-2 anti-Lambda_c- +ChargeConj Lc+1 Lc-1 +ChargeConj Lc+2 Lc-2 + +Alias Sc01 Sigma_c0 +Alias Sc02 Sigma_c0 +Alias anti-Sc01 anti-Sigma_c0 +Alias anti-Sc02 anti-Sigma_c0 +ChargeConj Sc01 anti-Sc01 +ChargeConj Sc02 anti-Sc02 + +Alias Sc+1 Sigma_c+ +Alias Sc+2 Sigma_c+ +Alias Sc-1 anti-Sigma_c- +Alias Sc-2 anti-Sigma_c- +ChargeConj Sc+1 Sc-1 +ChargeConj Sc+2 Sc-2 + +Alias Sc++1 Sigma_c++ +Alias Sc++2 Sigma_c++ +Alias Sc--1 anti-Sigma_c-- +Alias Sc--2 anti-Sigma_c-- +ChargeConj Sc++1 Sc--1 +ChargeConj Sc++2 Sc--2 + +Alias Sc*01 Sigma_c*0 +Alias Sc*02 Sigma_c*0 +Alias anti-Sc*01 anti-Sigma_c*0 +Alias anti-Sc*02 anti-Sigma_c*0 +ChargeConj Sc*01 anti-Sc*01 +ChargeConj Sc*02 anti-Sc*02 + +Alias Sc*+1 Sigma_c*+ +Alias Sc*+2 Sigma_c*+ +Alias Sc*-1 anti-Sigma_c*- +Alias Sc*-2 anti-Sigma_c*- +ChargeConj Sc*+1 Sc*-1 +ChargeConj Sc*+2 Sc*-2 + +Alias Sc*++1 Sigma_c*++ +Alias Sc*++2 Sigma_c*++ +Alias Sc*--1 anti-Sigma_c*-- +Alias Sc*--2 anti-Sigma_c*-- +ChargeConj Sc*++1 Sc*--1 +ChargeConj Sc*++2 Sc*--2 + +Alias Xc01 Xi_c0 +Alias Xc02 Xi_c0 +Alias anti-Xc01 anti-Xi_c0 +Alias anti-Xc02 anti-Xi_c0 +ChargeConj Xc01 anti-Xc01 +ChargeConj Xc02 anti-Xc02 + +Alias Xc+1 Xi_c+ +Alias Xc+2 Xi_c+ +Alias Xc-1 anti-Xi_c- +Alias Xc-2 anti-Xi_c- +ChargeConj Xc+1 Xc-1 +ChargeConj Xc+2 Xc-2 + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +#Alias D_s+1058 D_s+ +#Alias D_s-1058 D_s- +#ChargeConj D_s+1058 D_s-1058 + +#Alias D_s+1059 D_s+ +#Alias D_s-1059 D_s- +#ChargeConj D_s+1059 D_s-1059 + +#Alias D_s+1060 D_s+ +#Alias D_s-1060 D_s- +#ChargeConj D_s+1060 D_s-1060 + +#Alias D_s+1061 D_s+ +#Alias D_s-1061 D_s- +#ChargeConj D_s+1061 D_s-1061 + +#Alias D_s+1062 D_s+ +#Alias D_s-1062 D_s- +#ChargeConj D_s+1062 D_s-1062 + +#Alias D_s+1063 D_s+ +#Alias D_s-1063 D_s- +#ChargeConj D_s+1063 D_s-1063 + +#Alias D_s+1064 D_s+ +#Alias D_s-1064 D_s- +#ChargeConj D_s+1064 D_s-1064 + +#Alias D_s+1065 D_s+ +#Alias D_s-1065 D_s- +#ChargeConj D_s+1065 D_s-1065 + +#Alias D_s+1066 D_s+ +#Alias D_s-1066 D_s- +#ChargeConj D_s+1066 D_s-1066 + +#Alias D_s+1067 D_s+ +#Alias D_s-1067 D_s- +#ChargeConj D_s+1067 D_s-1067 + +#Alias D_s+1068 D_s+ +#Alias D_s-1068 D_s- +#ChargeConj D_s+1068 D_s-1068 + +#Alias D_s+1069 D_s+ +#Alias D_s-1069 D_s- +#ChargeConj D_s+1069 D_s-1069 + +#Alias D_s+1070 D_s+ +#Alias D_s-1070 D_s- +#ChargeConj D_s+1070 D_s-1070 + +#Alias D_s+1071 D_s+ +#Alias D_s-1071 D_s- +#ChargeConj D_s+1071 D_s-1071 + +#Alias D_s+1072 D_s+ +#Alias D_s-1072 D_s- +#ChargeConj D_s+1072 D_s-1072 + +#Alias D_s+1073 D_s+ +#Alias D_s-1073 D_s- +#ChargeConj D_s+1073 D_s-1073 + +#Alias D_s+1074 D_s+ +#Alias D_s-1074 D_s- +#ChargeConj D_s+1074 D_s-1074 + +#Alias D_s+1075 D_s+ +#Alias D_s-1075 D_s- +#ChargeConj D_s+1075 D_s-1075 + +#Alias D_s+1076 D_s+ +#Alias D_s-1076 D_s- +#ChargeConj D_s+1076 D_s-1076 + +#Alias D_s+1077 D_s+ +#Alias D_s-1077 D_s- +#ChargeConj D_s+1077 D_s-1077 + +#Alias D_s+1078 D_s+ +#Alias D_s-1078 D_s- +#ChargeConj D_s+1078 D_s-1078 + +#Alias D_s+1079 D_s+ +#Alias D_s-1079 D_s- +#ChargeConj D_s+1079 D_s-1079 + +#Alias D_s+1080 D_s+ +#Alias D_s-1080 D_s- +#ChargeConj D_s+1080 D_s-1080 + +#Alias D_s+1081 D_s+ +#Alias D_s-1081 D_s- +#ChargeConj D_s+1081 D_s-1081 + +#Alias D_s+1082 D_s+ +#Alias D_s-1082 D_s- +#ChargeConj D_s+1082 D_s-1082 + +#Alias D_s+1083 D_s+ +#Alias D_s-1083 D_s- +#ChargeConj D_s+1083 D_s-1083 + +#Alias D_s+1084 D_s+ +#Alias D_s-1084 D_s- +#ChargeConj D_s+1084 D_s-1084 + +#Alias D_s+1085 D_s+ +#Alias D_s-1085 D_s- +#ChargeConj D_s+1085 D_s-1085 + +#Alias D_s+1086 D_s+ +#Alias D_s-1086 D_s- +#ChargeConj D_s+1086 D_s-1086 + +#Alias D_s+1087 D_s+ +#Alias D_s-1087 D_s- +#ChargeConj D_s+1087 D_s-1087 + +#Alias D_s+1088 D_s+ +#Alias D_s-1088 D_s- +#ChargeConj D_s+1088 D_s-1088 + +#Alias D_s+1089 D_s+ +#Alias D_s-1089 D_s- +#ChargeConj D_s+1089 D_s-1089 + +#Alias D_s+1090 D_s+ +#Alias D_s-1090 D_s- +#ChargeConj D_s+1090 D_s-1090 + +#Alias D_s+1091 D_s+ +#Alias D_s-1091 D_s- +#ChargeConj D_s+1091 D_s-1091 + +#Alias D_s+1092 D_s+ +#Alias D_s-1092 D_s- +#ChargeConj D_s+1092 D_s-1092 + +#Alias D_s+1093 D_s+ +#Alias D_s-1093 D_s- +#ChargeConj D_s+1093 D_s-1093 + +#Alias D_s+1094 D_s+ +#Alias D_s-1094 D_s- +#ChargeConj D_s+1094 D_s-1094 + +#Alias D_s+1095 D_s+ +#Alias D_s-1095 D_s- +#ChargeConj D_s+1095 D_s-1095 + +#Alias D_s+1096 D_s+ +#Alias D_s-1096 D_s- +#ChargeConj D_s+1096 D_s-1096 + +#Alias D_s+1097 D_s+ +#Alias D_s-1097 D_s- +#ChargeConj D_s+1097 D_s-1097 + +#Alias D_s+1098 D_s+ +#Alias D_s-1098 D_s- +#ChargeConj D_s+1098 D_s-1098 + +#Alias D_s+1099 D_s+ +#Alias D_s-1099 D_s- +#ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +Alias D0_3000 D0 +Alias anti-D0_3000 anti-D0 +ChargeConj D0_3000 anti-D0_3000 + +#Alias D0_3001 D0 +#Alias anti-D0_3001 anti-D0 +#ChargeConj D0_3001 anti-D0_3001 + +#Alias D0_3002 D0 +#Alias anti-D0_3002 anti-D0 +#ChargeConj D0_3002 anti-D0_3002 + +#Alias D0_3003 D0 +#Alias anti-D0_3003 anti-D0 +#ChargeConj D0_3003 anti-D0_3003 + +#Alias D0_3004 D0 +#Alias anti-D0_3004 anti-D0 +#ChargeConj D0_3004 anti-D0_3004 + +#Alias D0_3005 D0 +#Alias anti-D0_3005 anti-D0 +#ChargeConj D0_3005 anti-D0_3005 + +#Alias D0_3006 D0 +#Alias anti-D0_3006 anti-D0 +#ChargeConj D0_3006 anti-D0_3006 + +#Alias D0_3007 D0 +#Alias anti-D0_3007 anti-D0 +#ChargeConj D0_3007 anti-D0_3007 + +#Alias D0_3008 D0 +#Alias anti-D0_3008 anti-D0 +#ChargeConj D0_3008 anti-D0_3008 + +#Alias D0_3009 D0 +#Alias anti-D0_3009 anti-D0 +#ChargeConj D0_3009 anti-D0_3009 + +############## +# D0 -> K- pi+ +############## + + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +Alias D0_4000 D0 +Alias anti-D0_4000 anti-D0 +ChargeConj D0_4000 anti-D0_4000 + +#Alias D0_4001 D0 +#Alias anti-D0_4001 anti-D0 +#ChargeConj D0_4001 anti-D0_4001 + +#Alias D0_4002 D0 +#Alias anti-D0_4002 anti-D0 +#ChargeConj D0_4002 anti-D0_4002 + +#Alias D0_4003 D0 +#Alias anti-D0_4003 anti-D0 +#ChargeConj D0_4003 anti-D0_4003 + +#Alias D0_4004 D0 +#Alias anti-D0_4004 anti-D0 +#ChargeConj D0_4004 anti-D0_4004 + +#Alias D0_4005 D0 +#Alias anti-D0_4005 anti-D0 +#ChargeConj D0_4005 anti-D0_4005 + +#Alias D0_4006 D0 +#Alias anti-D0_4006 anti-D0 +#ChargeConj D0_4006 anti-D0_4006 + +#Alias D0_4007 D0 +#Alias anti-D0_4007 anti-D0 +#ChargeConj D0_4007 anti-D0_4007 + +#Alias D0_4008 D0 +#Alias anti-D0_4008 anti-D0 +#ChargeConj D0_4008 anti-D0_4008 + +#Alias D0_4009 D0 +#Alias anti-D0_4009 anti-D0 +#ChargeConj D0_4009 anti-D0_4009 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +#Alias D0_5000 D0 +#Alias anti-D0_5000 anti-D0 +#ChargeConj D0_5000 anti-D0_5000 + +#Alias D0_5001 D0 +#Alias anti-D0_5001 anti-D0 +#ChargeConj D0_5001 anti-D0_5001 + +#Alias D0_5002 D0 +#Alias anti-D0_5002 anti-D0 +#ChargeConj D0_5002 anti-D0_5002 + +#Alias D0_5003 D0 +#Alias anti-D0_5003 anti-D0 +#ChargeConj D0_5003 anti-D0_5003 + +#Alias D0_5004 D0 +#Alias anti-D0_5004 anti-D0 +#ChargeConj D0_5004 anti-D0_5004 + +#Alias D0_5005 D0 +#Alias anti-D0_5005 anti-D0 +#ChargeConj D0_5005 anti-D0_5005 + +#Alias D0_5006 D0 +#Alias anti-D0_5006 anti-D0 +#ChargeConj D0_5006 anti-D0_5006 + +#Alias D0_5007 D0 +#Alias anti-D0_5007 anti-D0 +#ChargeConj D0_5007 anti-D0_5007 + +#Alias D0_5008 D0 +#Alias anti-D0_5008 anti-D0 +#ChargeConj D0_5008 anti-D0_5008 + +#Alias D0_5009 D0 +#Alias anti-D0_5009 anti-D0 +#ChargeConj D0_5009 anti-D0_5009 + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +Alias D+6000 D+ +Alias D-6000 D- +ChargeConj D+6000 D-6000 + +Alias D+6001 D+ +Alias D-6001 D- +ChargeConj D+6001 D-6001 + +Alias D+6002 D+ +Alias D-6002 D- +ChargeConj D+6002 D-6002 + +Alias D+6003 D+ +Alias D-6003 D- +ChargeConj D+6003 D-6003 + +Alias D+6004 D+ +Alias D-6004 D- +ChargeConj D+6004 D-6004 + +#Alias D+6005 D+ +#Alias D-6005 D- +#ChargeConj D+6005 D-6005 + +#Alias D+6006 D+ +#Alias D-6006 D- +#ChargeConj D+6006 D-6006 + +#Alias D+6007 D+ +#Alias D-6007 D- +#ChargeConj D+6007 D-6007 + +#Alias D+6008 D+ +#Alias D-6008 D- +#ChargeConj D+6008 D-6008 + +#Alias D+6009 D+ +#Alias D-6009 D- +#ChargeConj D+6009 D-6009 + +#Alias D+6010 D+ +#Alias D-6010 D- +#ChargeConj D+6010 D-6010 + +#Alias D+6011 D+ +#Alias D-6011 D- +#ChargeConj D+6011 D-6011 + +#Alias D+6012 D+ +#Alias D-6012 D- +#ChargeConj D+6012 D-6012 + +#Alias D+6013 D+ +#Alias D-6013 D- +#ChargeConj D+6013 D-6013 + +#Alias D+6014 D+ +#Alias D-6014 D- +#ChargeConj D+6014 D-6014 + +#Alias D+6015 D+ +#Alias D-6015 D- +#ChargeConj D+6015 D-6015 + +#Alias D+6016 D+ +#Alias D-6016 D- +#ChargeConj D+6016 D-6016 + +#Alias D+6017 D+ +#Alias D-6017 D- +#ChargeConj D+6017 D-6017 + +#Alias D+6018 D+ +#Alias D-6018 D- +#ChargeConj D+6018 D-6018 + +#Alias D+6019 D+ +#Alias D-6019 D- +#ChargeConj D+6019 D-6019 + +#Alias D+6020 D+ +#Alias D-6020 D- +#ChargeConj D+6020 D-6020 + +#Alias D+6021 D+ +#Alias D-6021 D- +#ChargeConj D+6021 D-6021 + +#Alias D+6022 D+ +#Alias D-6022 D- +#ChargeConj D+6022 D-6022 + +#Alias D+6023 D+ +#Alias D-6023 D- +#ChargeConj D+6023 D-6023 + +#Alias D+6024 D+ +#Alias D-6024 D- +#ChargeConj D+6024 D-6024 + +#Alias D+6025 D+ +#Alias D-6025 D- +#ChargeConj D+6025 D-6025 + +#Alias D+6026 D+ +#Alias D-6026 D- +#ChargeConj D+6026 D-6026 + +#Alias D+6027 D+ +#Alias D-6027 D- +#ChargeConj D+6027 D-6027 + +#Alias D+6028 D+ +#Alias D-6028 D- +#ChargeConj D+6028 D-6028 + +#Alias D+6029 D+ +#Alias D-6029 D- +#ChargeConj D+6029 D-6029 + +# + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +Alias D+7000 D+ +Alias D-7000 D- +ChargeConj D+7000 D-7000 + +#Alias D+7001 D+ +#Alias D-7001 D- +#ChargeConj D+7001 D-7001 + +#Alias D+7002 D+ +#Alias D-7002 D- +#ChargeConj D+7002 D-7002 + +#Alias D+7003 D+ +#Alias D-7003 D- +#ChargeConj D+7003 D-7003 + +#Alias D+7004 D+ +#Alias D-7004 D- +#ChargeConj D+7004 D-7004 + +#Alias D+7005 D+ +#Alias D-7005 D- +#ChargeConj D+7005 D-7005 + +#Alias D+7006 D+ +#Alias D-7006 D- +#ChargeConj D+7006 D-7006 + +#Alias D+7007 D+ +#Alias D-7007 D- +#ChargeConj D+7007 D-7007 + +#Alias D+7008 D+ +#Alias D-7008 D- +#ChargeConj D+7008 D-7008 + +#Alias D+7009 D+ +#Alias D-7009 D- +#ChargeConj D+7009 D-7009 + +#Alias D+7010 D+ +#Alias D-7010 D- +#ChargeConj D+7010 D-7010 + +#Alias D+7011 D+ +#Alias D-7011 D- +#ChargeConj D+7011 D-7011 + +#Alias D+7012 D+ +#Alias D-7012 D- +#ChargeConj D+7012 D-7012 + +#Alias D+7013 D+ +#Alias D-7013 D- +#ChargeConj D+7013 D-7013 + +#Alias D+7014 D+ +#Alias D-7014 D- +#ChargeConj D+7014 D-7014 + +#Alias D+7015 D+ +#Alias D-7015 D- +#ChargeConj D+7015 D-7015 + +#Alias D+7016 D+ +#Alias D-7016 D- +#ChargeConj D+7016 D-7016 + +#Alias D+7017 D+ +#Alias D-7017 D- +#ChargeConj D+7017 D-7017 + +#Alias D+7018 D+ +#Alias D-7018 D- +#ChargeConj D+7018 D-7018 + +#Alias D+7019 D+ +#Alias D-7019 D- +#ChargeConj D+7019 D-7019 + +#Alias D+7020 D+ +#Alias D-7020 D- +#ChargeConj D+7020 D-7020 + +#Alias D+7021 D+ +#Alias D-7021 D- +#ChargeConj D+7021 D-7021 + +#Alias D+7022 D+ +#Alias D-7022 D- +#ChargeConj D+7022 D-7022 + +#Alias D+7023 D+ +#Alias D-7023 D- +#ChargeConj D+7023 D-7023 + +#Alias D+7024 D+ +#Alias D-7024 D- +#ChargeConj D+7024 D-7024 + +#Alias D+7025 D+ +#Alias D-7025 D- +#ChargeConj D+7025 D-7025 + +#Alias D+7026 D+ +#Alias D-7026 D- +#ChargeConj D+7026 D-7026 + +#Alias D+7027 D+ +#Alias D-7027 D- +#ChargeConj D+7027 D-7027 + +#Alias D+7028 D+ +#Alias D-7028 D- +#ChargeConj D+7028 D-7028 + +#Alias D+7029 D+ +#Alias D-7029 D- +#ChargeConj D+7029 D-7029 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Alias D+8000 D+ +Alias D-8000 D- +ChargeConj D+8000 D-8000 + +Alias D+8001 D+ +Alias D-8001 D- +ChargeConj D+8001 D-8001 + +Alias D+8002 D+ +Alias D-8002 D- +ChargeConj D+8002 D-8002 + +Alias D+8003 D+ +Alias D-8003 D- +ChargeConj D+8003 D-8003 + +Alias D+8004 D+ +Alias D-8004 D- +ChargeConj D+8004 D-8004 + +Alias D+8005 D+ +Alias D-8005 D- +ChargeConj D+8005 D-8005 + +Alias D+8006 D+ +Alias D-8006 D- +ChargeConj D+8006 D-8006 + +Alias D+8007 D+ +Alias D-8007 D- +ChargeConj D+8007 D-8007 + +Alias D+8008 D+ +Alias D-8008 D- +ChargeConj D+8008 D-8008 + +Alias D+8009 D+ +Alias D-8009 D- +ChargeConj D+8009 D-8009 + +Alias D+8010 D+ +Alias D-8010 D- +ChargeConj D+8010 D-8010 + +Alias D+8011 D+ +Alias D-8011 D- +ChargeConj D+8011 D-8011 + +Alias D+8012 D+ +Alias D-8012 D- +ChargeConj D+8012 D-8012 + +Alias D+8013 D+ +Alias D-8013 D- +ChargeConj D+8013 D-8013 + +Alias D+8014 D+ +Alias D-8014 D- +ChargeConj D+8014 D-8014 + +Alias D+8015 D+ +Alias D-8015 D- +ChargeConj D+8015 D-8015 + +Alias D+8016 D+ +Alias D-8016 D- +ChargeConj D+8016 D-8016 + +Alias D+8017 D+ +Alias D-8017 D- +ChargeConj D+8017 D-8017 + +Alias D+8018 D+ +Alias D-8018 D- +ChargeConj D+8018 D-8018 + +Alias D+8019 D+ +Alias D-8019 D- +ChargeConj D+8019 D-8019 + +Alias D+8020 D+ +Alias D-8020 D- +ChargeConj D+8020 D-8020 + +Alias D+8021 D+ +Alias D-8021 D- +ChargeConj D+8021 D-8021 + +Alias D+8022 D+ +Alias D-8022 D- +ChargeConj D+8022 D-8022 + +Alias D+8023 D+ +Alias D-8023 D- +ChargeConj D+8023 D-8023 + +Alias D+8024 D+ +Alias D-8024 D- +ChargeConj D+8024 D-8024 + +Alias D+8025 D+ +Alias D-8025 D- +ChargeConj D+8025 D-8025 + +Alias D+8026 D+ +Alias D-8026 D- +ChargeConj D+8026 D-8026 + +Alias D+8027 D+ +Alias D-8027 D- +ChargeConj D+8027 D-8027 + +Alias D+8028 D+ +Alias D-8028 D- +ChargeConj D+8028 D-8028 + +#Alias D+8029 D+ +#Alias D-8029 D- +#ChargeConj D+8029 D-8029 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### + +Alias Lc+_9500 Lambda_c+ +Alias Lc-_9500 anti-Lambda_c- +ChargeConj Lc+_9500 Lc-_9500 + +Alias Lc+_9501 Lambda_c+ +Alias Lc-_9501 anti-Lambda_c- +ChargeConj Lc+_9501 Lc-_9501 + +Alias Lc+_9502 Lambda_c+ +Alias Lc-_9502 anti-Lambda_c- +ChargeConj Lc+_9502 Lc-_9502 + +Alias Lc+_9503 Lambda_c+ +Alias Lc-_9503 anti-Lambda_c- +ChargeConj Lc+_9503 Lc-_9503 + +Alias Lc+_9504 Lambda_c+ +Alias Lc-_9504 anti-Lambda_c- +ChargeConj Lc+_9504 Lc-_9504 + +Alias Lc+_9505 Lambda_c+ +Alias Lc-_9505 anti-Lambda_c- +ChargeConj Lc+_9505 Lc-_9505 + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9499) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + +Alias D_s+9014 D_s+ +Alias D_s-9014 D_s- +ChargeConj D_s+9014 D_s-9014 + +Alias D_s+9015 D_s+ +Alias D_s-9015 D_s- +ChargeConj D_s+9015 D_s-9015 + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + +####################################################################################### + +Alias Lc+_9300 Lambda_c+ +Alias Lc-_9300 anti-Lambda_c- +ChargeConj Lc+_9300 Lc-_9300 + +Alias Lc+_9301 Lambda_c+ +Alias Lc-_9301 anti-Lambda_c- +ChargeConj Lc+_9301 Lc-_9301 + +Alias Sc++_9310 Sigma_c++ +Alias Sc--_9310 anti-Sigma_c-- +ChargeConj Sc++_9310 Sc--_9310 + +Alias Sc+_9311 Sigma_c+ +Alias Sc-_9311 anti-Sigma_c- +ChargeConj Sc+_9311 Sc-_9311 + +Alias Sc0_9312 Sigma_c0 +Alias anti-Sc0_9312 anti-Sigma_c0 +ChargeConj Sc0_9312 anti-Sc0_9312 + +Alias Sc*++_9313 Sigma_c*++ +Alias Sc*--_9313 anti-Sigma_c*-- +ChargeConj Sc*++_9313 Sc*--_9313 + +Alias Sc*+_9314 Sigma_c*+ +Alias Sc*-_9314 anti-Sigma_c*- +ChargeConj Sc*+_9314 Sc*-_9314 + +Alias Sc*0_9315 Sigma_c*0 +Alias anti-Sc*0_9315 anti-Sigma_c*0 +ChargeConj Sc*0_9315 anti-Sc*0_9315 + + +Alias Xc+_9400 Xi_c+ +Alias Xc-_9400 anti-Xi_c- +ChargeConj Xc+_9400 Xc-_9400 + +Alias Xc0_9401 Xi_c0 +Alias anti-Xc0_9401 anti-Xi_c0 +ChargeConj Xc0_9401 anti-Xc0_9401 + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 + +Alias K0pp K0 +Alias anti-K0pp anti-K0 +ChargeConj K0pp anti-K0pp + +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +# K_1+-> K+ pi- pi- +Alias K_1+Kpp K_1+ +Alias K_1-Kpp K_1- +ChargeConj K_1+Kpp K_1-Kpp + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega +Alias omega-pp omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +############## +# Lambda(1520)0 +Alias Lambda(1520)0_pK Lambda(1520)0 +Alias anti-Lambda(1520)0_pK anti-Lambda(1520)0 +ChargeConj Lambda(1520)0_pK anti-Lambda(1520)0_pK + + + +####################################################################################### +# +# Finish Hijacking particles +# +####################################################################################### + +# Change particle masses and widths and max ranges +LSMANYDELTAFUNC spike_42_72 +ChangeMassMin spike_42_72 4.2 +ChangeMassMax spike_42_72 7.2 +# width sets spacing of spikes +Particle spike_42_72 5.6 0.5 + +LSMANYDELTAFUNC spike_42_42 +ChangeMassMin spike_42_42 4.2 +ChangeMassMax spike_42_42 4.2 +# width sets spacing of spikes +Particle spike_42_42 4.2 0.5 + +LSMANYDELTAFUNC spike_475_750 +ChangeMassMin spike_475_750 4.75 +ChangeMassMax spike_475_750 7.50 +# width sets spacing of spikes +Particle spike_475_750 5.0 0.25 + +LSMANYDELTAFUNC spike_400_750 +ChangeMassMin spike_400_750 4.00 +ChangeMassMax spike_400_750 7.50 +# width sets spacing of spikes +Particle spike_400_750 5.0 0.5 + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +#Decay vphoton001 +#1.000 psi(4040)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton002 +#1.000 psi(4160)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton003 +#1.000 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton004 +#1.000 psi(4415)DsDs gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton005 +#1.000 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton006 +#1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton007 +#1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton008 +#1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +#Decay vphoton009 +#1.000 psi(4160)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton010 +#1.000 psi(4415)DsDspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton011 +#1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton012 +#1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +#Decay vphoton013 +#1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton014 +#1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton015 +#1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +#Decay vphoton016 +#1.000 psi(4415)DsDspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton017 +#1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton018 +#1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +#Decay vphoton019 +#1.000 psi(4415)DsD0K- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton020 +#1.000 psi(4415)DsD-K0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton021 +#1.000 psi(4415)DsD-K0L gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton022 +#1.000 psi(4415)DsD-K0-pp gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton023 +#1.000 psi(4415)DsD-K0-00 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton024 +#1.000 psi(4415)DsD-K0-neu gamma VECTORISR 1. 1.; +#Enddecay + + + +# and the preset mixtures for production + +#Decay vphoton025 +#0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +#0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton026 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton027 +#0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) + +#Decay vphoton027 +#1.000 psi(3770)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton028 +#1.000 psi(4040)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton029 +#1.000 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton030 +#1.000 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton031 +#1.000 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton032 +#1.000 psi(4040)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton033 +#1.000 psi(4160)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton034 +#1.000 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton035 +#1.000 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton036 +#1.000 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton037 +#1.000 psi(4160)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton038 +#1.000 psi(4415)D0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton039 +#1.000 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton040 +#1.000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton041 +#1.000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton042 +#1.000 psi(4415)D*0D*032 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +#Decay vphoton043 +#1.000 psi(4040)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton044 +#1.000 psi(4040)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton045 +#1.000 psi(4160)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton046 +#1.000 psi(4160)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton047 +#1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton048 +#1.000 psi(4415)D0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton049 +#1.000 psi(4415)D*0D0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton050 +#1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +#Decay vphoton051 +#1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton052 +#1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton053 +#1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton054 +#1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton055 +#1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton056 +#1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton057 +#1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton058 +#1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +#Decay vphoton059 +#1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton060 +#1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton061 +#1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton062 +#1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton063 +#1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton064 +#1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton065 +#1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D-(*) + +#Decay vphoton066 +#1.000 psi(3770)D+D- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton067 +#1.000 psi(4040)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton068 +#1.000 psi(4040)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton069 +#1.000 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton070 +#1.000 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton071 +#1.000 psi(4040)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton072 +#1.000 psi(4160)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton073 +#1.000 psi(4160)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton074 +#1.000 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton075 +#1.000 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton076 +#1.000 psi(4160)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton077 +#1.000 psi(4415)D+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton078 +#1.000 psi(4415)D*+D- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton079 +#1.000 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton080 +#1.000 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton081 +#1.000 psi(4415)D*+D*-32 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +#Decay vphoton082 +#1.000 psi(4040)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton083 +#1.000 psi(4040)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton084 +#1.000 psi(4160)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton085 +#1.000 psi(4160)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton086 +#1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton087 +#1.000 psi(4415)D+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton088 +#1.000 psi(4415)D*+D-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton089 +#1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +#Decay vphoton090 +#1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton091 +#1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton092 +#1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton093 +#1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton094 +#1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton095 +#1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton096 +#1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +#Decay vphoton097 +#1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton098 +#1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton099 +#1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton100 +#1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton101 +#1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton102 +#1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton103 +#1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 1. 1.; +#Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +#Decay vphoton104 +#1.000 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton105 +#1.000 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton106 +#1.000 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton107 +#1.000 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton108 +#1.000 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton109 +#1.000 psi(4160)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton110 +#1.000 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton111 +#1.000 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton112 +#1.000 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton113 +#1.000 psi(4415)D*+D*0pi- gamma VECTORISR 1. 1.; +#Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +#Decay vphoton114 +#1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton115 +#1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton116 +#1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton117 +#1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton118 +#1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton119 +#1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + + +#Decay vphoton120 +#1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton121 +#1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton122 +#1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#Decay vphoton123 +#1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 1. 1.; +#Enddecay + +#combinations for MC production runs +#Decay vphoton124 +#0.250 psi(4040)DsDs gamma VECTORISR 1. 1.; +#0.750 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +#Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.750 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.750 psi(4160)D*+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton134 +0.0833333 psi(4040)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_50_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_50_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton135 +0.0833333 psi(4040)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_10 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*+D*-_chg_12 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:2:3 ratio for Psi 4.030 : 4.160 : 4.415 +# tagging side (1) D*0 unforced. recoil side (2) D*0 unforced +Decay vphoton136 +0.0833333 psi(4040)D*0D*010 gamma VECTORISR 1. 1.; +0.0833333 psi(4040)D*0D*012 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*010 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*0D*012 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*010 gamma VECTORISR 1. 1.; +0.2500000 psi(4415)D*0D*012 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ unforced. +Decay vphoton137 +0.3333333 psi(4040)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1D-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1D-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +# D*+ -> D+ 100% +Decay vphoton138 +0.3333333 psi(4040)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*+_1_chgD-_2 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton139 +0.3333333 psi(4040)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4160)D*0D0 gamma VECTORISR 1. 1.; +0.3333333 psi(4415)D*0D0 gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 2:1:1:1 ratio for Psi 3.770 : 4.030 : 4.160 : 4.415 +Decay vphoton140 +0.2 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.2 psi(3770)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4040)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4040)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4160)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4160)D+D- gamma VECTORISR 1. 1.; +0.1 psi(4415)D0D0 gamma VECTORISR 1. 1.; +0.1 psi(4415)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton141 +0.125 psi(4040)D+D0pi- gamma VECTORISR 1. 1.; +0.250 psi(4160)D+D0pi- gamma VECTORISR 1. 1.; +0.625 psi(4415)D+D0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +# use 1:2:5 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton142 +0.0625 psi(4040)D*+D0pi- gamma VECTORISR 1. 1.; +0.0625 psi(4040)D+D*0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D*+D0pi- gamma VECTORISR 1. 1.; +0.1250 psi(4160)D+D*0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D*+D0pi- gamma VECTORISR 1. 1.; +0.3125 psi(4415)D+D*0pi- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP4 MC production run +#chan\Psi 4040 4160 4415 +# DsDs 6% 2% 2% +# Ds*Ds 40% 20% +# Ds*Ds* 30% -> 15% (L,S)=(1,0), 15% (L,S)=(1,2) +Decay vphoton143 +0.06 psi(4040)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4160)DsDs gamma VECTORISR 1. 1.; +0.02 psi(4415)DsDs gamma VECTORISR 1. 1.; +0.40 psi(4160)Ds*Ds gamma VECTORISR 1. 1.; +0.20 psi(4415)Ds*Ds gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*10 gamma VECTORISR 1. 1.; +0.15 psi(4415)Ds*Ds*12 gamma VECTORISR 1. 1.; +Enddecay + + +Decay vphoton144 +0.5 psi(3770)D0D0 gamma VECTORISR 1. 1.; +0.5 psi(3770)D+D- gamma VECTORISR 1. 1.; +Enddecay + +#combination for SP5 MC production run +# use 50:50:0 split for (L,S) = (1,0):(1,2):(3,2) +# use 1:1:1 ratio for Psi 4.030 : 4.160 : 4.415 +Decay vphoton145 +0.1666667 psi(4040)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4040)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4160)D*+D*-12 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-10 gamma VECTORISR 1. 1.; +0.1666667 psi(4415)D*+D*-12 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton146 +1.0 spike_42_72 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton147 +1.0 spike_42_42 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton148 +1.0 spike_475_750 gamma VECTORISR 1. 1.; +Enddecay + +Decay vphoton149 +1.0 spike_400_750 gamma VECTORISR 1. 1.; +Enddecay + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_1D0_2 +0.50 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_2D0_1 +0.50 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_3D0_4 +0.50 D*03 anti-D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*03 D04 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0_4D0_3 +0.50 D*04 anti-D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 anti-D*04 D03 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4040)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4160)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1D-_2 +0.50 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_50D-_2 +0.50 D*+1_50 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_50 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_80D-_2 +0.50 D*+1_80 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_80 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_chgD-_2 +0.50 D*+1_chg D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_chg D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_1_neuD-_2 +0.50 D*+1_neu D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-1_neu D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2D-_1 +0.50 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_50D-_1 +0.50 D*+2_50 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_50 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_80D-_1 +0.50 D*+2_80 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_80 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_chgD-_1 +0.50 D*+2_chg D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_chg D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+_2_neuD-_1 +0.50 D*+2_neu D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.50 D*-2_neu D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-10 +0.500 D*+1_50 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-10 +0.500 D*+1_80 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_10 +0.500 D*+1 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_10 +0.500 D*+1 D*-2_80 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_10 +0.500 D*+1_50 D*-2_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-10 +0.500 D*+1_chg D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_10 +0.500 D*+1 D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_10 +0.500 D*+1_chg D*-2_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-12 +0.500 D*+1_50 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-12 +0.500 D*+1_80 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_12 +0.500 D*+1 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_12 +0.500 D*+1 D*-2_80 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_12 +0.500 D*+1_50 D*-2_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-12 +0.500 D*+1_chg D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_12 +0.500 D*+1 D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_12 +0.500 D*+1_chg D*-2_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-32 +0.500 D*+1_50 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_80D*-32 +0.500 D*+1_80 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_50_32 +0.500 D*+1 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_80_32 +0.500 D*+1 D*-2_80 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_80 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_50D*-_50_32 +0.500 D*+1_50 D*-2_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_50 D*-1_50 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-32 +0.500 D*+1_chg D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-_chg_32 +0.500 D*+1 D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)D*+_chgD*-_chg_32 +0.500 D*+1_chg D*-2_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2_chg D*-1_chg HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.25 D+1 anti-D02 pi- PHSP; +0.25 D-1 D02 pi+ PHSP; +0.25 D+2 anti-D01 pi- PHSP; +0.25 D-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.25 D*+1 anti-D02 pi- PHSP; +0.25 D*-1 D02 pi+ PHSP; +0.25 D*+2 anti-D01 pi- PHSP; +0.25 D*-2 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.25 D+1 anti-D*02 pi- PHSP; +0.25 D-1 D*02 pi+ PHSP; +0.25 D+2 anti-D*01 pi- PHSP; +0.25 D-2 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.25 D*+1 anti-D*02 pi- PHSP; +0.25 D*-1 D*02 pi+ PHSP; +0.25 D*+2 anti-D*01 pi- PHSP; +0.25 D*-2 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+1_neu +0.6830 D01 pi+ VSS; +Enddecay +CDecay D*-1_neu + +Decay D*+1_chg +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_chg + +Decay D*+1_50 +0.3170 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1_50 + +Decay D*+1_80 +0.8 D01 pi+ VSS; +0.2 D+1 pi0 VSS; +Enddecay +CDecay D*-1_80 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*+2_neu +0.6830 D02 pi+ VSS; +Enddecay +CDecay D*-2_neu + +Decay D*+2_chg +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_chg + +Decay D*+2_50 +0.3170 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2_50 + +Decay D*+2_80 +0.8 D02 pi+ VSS; +0.2 D+2 pi0 VSS; +Enddecay +CDecay D*-2_80 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*01_pi0 +0.6190 D01 pi0 VSS; +Enddecay +CDecay anti-D*01_pi0 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +Decay D*02_pi0 +0.6190 D02 pi0 VSS; +Enddecay +CDecay anti-D*02_pi0 + + + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + +############## +# Kaons: K_1+ + +Decay K_1+Kpp +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(K*0 pi+) * B(omega -> K+ pi-) = 0.1067 * 0.6667 = 0.07113689 +0.07113689 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +#B(omega K+) * B(omega -> pi+ pi-) = 0.11 * 0.0221 = 0.002431 +#To large masses can cause infinit loops +0.002431 omega-pp K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; + +0.1444 K+ pi+ pi- PHSP; +Enddecay +CDecay K_1-Kpp + +############## +# Kaons: K0 + +#Forced K0 alias +Decay K0pp +1.0 pi+ pi- PHSP; +Enddecay +CDecay anti-K0pp + +#Forced KS0 alias +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +Decay omega-pp +0.0221 pi- pi+ VSS; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + +############## +# Lambda(1520) +Decay Lambda(1520)0_pK +0.23 p+ K- PHSP; +Enddecay +CDecay anti-Lambda(1520)0_pK + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +############## +# D0 -> K- pi+ +############## + +Decay D0_3000 +1.0 K- pi+ PHSP; +Enddecay +CDecay anti-D0_3000 + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +############## +# D0 -> K*- e+ nu_e +############## + +Decay D0_4000 +1.0 K*- e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay anti-D0_4000 + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +############## +# D+ -> K- pi+ pi+ +############## + +Decay D+6000 +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +1.0 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-6000 + + +############## +# D+ -> anti-K0 pi+ +############## + +Decay D+6001 +1.0 anti-K0 pi+ PHSP; +Enddecay +CDecay D-6001 + +Decay D+6002 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D-6002 + +Decay D+6003 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D-6003 + +Decay D+6004 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D-6004 + + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +############## +# D+ -> anti-K*0 e+ nu_e +############## + +Decay D+7000 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D-7000 + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + +Decay D+8000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D-8000 + +Decay D+8001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D-8001 + +Decay D+8002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D-8002 + +Decay D+8003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D-8003 + +Decay D+8004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D-8004 + +Decay D+8005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D-8005 + +Decay D+8006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D-8006 + +Decay D+8007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D-8007 + +Decay D+8008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D-8008 + +Decay D+8009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D-8009 + +Decay D+8010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D-8010 + +Decay D+8011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D-8011 + +Decay D+8012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D-8012 + +Decay D+8013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D-8013 + +Decay D+8014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D-8014 + +Decay D+8015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D-8015 + +Decay D+8016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D-8016 + +Decay D+8017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D-8017 + +Decay D+8018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D-8018 + +Decay D+8019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D-8019 + +Decay D+8020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D-8020 + +Decay D+8021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D-8021 + +Decay D+8022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D-8022 + +Decay D+8023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D-8023 + +Decay D+8024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D-8024 + +Decay D+8025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D-8025 + +Decay D+8026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D-8026 + +Decay D+8027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D-8027 + +Decay D+8028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D-8028 + +####################################################################################### +# Specific Charm Baryon decays (Preset decays 9500 - 9999) +####################################################################################### +Decay Lc+_9502 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +Enddecay +CDecay Lc-_9502 + +Decay Lc+_9503 +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +Enddecay +CDecay Lc-_9503 + +Decay Lc+_9504 +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +Enddecay +CDecay Lc-_9504 + +Decay Lc+_9505 +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9505 + + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +# phiKK pi, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9014 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9014 + +# mix of Leptonic 1 prong, Semi 1 prong, and K0K+ for SP5 40: 40: 20 +# 9010 9003 0013 +Decay D_s+9015 +0.4 D_s+9010 PHSP; +0.4 D_s+9003 PHSP; +0.2 D_s+0013 PHSP; +Enddecay +CDecay D_s-9015 + + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +# Cleantest D+ tags Kpipi + Kspi +Decay D+9101 +# B(anti-K0 pi+) * B(K0->Ks->pipi) = 0.0289 * 0.5 * .6861 = 0.009914145 +0.009914145 K0-pp pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0900 K- pi+ pi+ D_DALITZ; +Enddecay +CDecay D-9101 + +# All Semimuonic D+ decays +Decay D+9102 +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9102 + +# All Semielectronic D+ decays +Decay D+9103 +0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; +0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; +0.0031 pi0 e+ nu_e PHOTOS ISGW2; +0.0028 eta e+ nu_e PHOTOS ISGW2; +0.0011 eta' e+ nu_e PHOTOS ISGW2; +0.0022 rho0 e+ nu_e PHOTOS ISGW2; +0.0029 omega e+ nu_e PHOTOS ISGW2; +0.0027 K- pi+ e+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9103 + +# All Semimuonic D+ decays plus enhanced Tau nu,->tau->e,mu +Decay D+9104 +0.03 tau+e nu_tau SLN; +0.03 tau+mu nu_tau SLN; +0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; +0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; +0.0028 eta mu+ nu_mu PHOTOS ISGW2; +0.0011 eta' mu+ nu_mu PHOTOS ISGW2; +0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; +0.0029 omega mu+ nu_mu PHOTOS ISGW2; +0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; +Enddecay +CDecay D-9104 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + +# Cleanest D0 decays Kpi Kpipi0 K3pi Kspipi +Decay D0_9201 +0.0383 K- pi+ PHSP; +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1390 K- pi+ pi0 D_DALITZ; +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 anti-K0pp pi+ pi- D_DALITZ; +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0060 K- pi+ rho0 PHSP; + +0.0174 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.01497825 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.035916 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0107 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9201 + +# Clean mix of D0 decays Kpi K3pi Kpipi0 = 40:40:20 for Xinchou +Decay D0_9202 +0.4 K- pi+ PHSP; + +# +# the Dalitz mode below includes K*bar(892)0 pi0, +# K*(892)- pi+, and K- rho(770)+ resonances +0.1917 K- pi+ pi0 D_DALITZ; + +# +# K- pi+ pi+ pi- modes follow +# anti-K*0 rho0 is missing. seems to be absorbed in K- pi+ rho= +0.0083 K- pi+ rho0 PHSP; + +0.0881 K- pi+ pi+ pi- PHSP; +# B(anti-K*0 pi+ pi-) * B(K*0->K pi) = 0.0225 * 0.6657 +0.0758 anti-K*0-Kp pi+ pi- PHSP; +# B(a_1+ K-) * B(a_1+ -> pi+ rho0) = 0.0730 * 0.4920 = 0.035916 +0.1819 a_1+3pr K- SVS; +# B(K_1- pi+) * +0.0542 K_1-Kpp pi+ SVS; +Enddecay +CDecay anti-D0_9202 + +####################################################################################### +# +# Generic Charm Baryon decays Decays +# +####################################################################################### +# Lc Decay 1 is the hadronic singletag side of the event +# Lc Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay Sc++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc--1 + +Decay Sc++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc--2 + +Decay Sc+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc-1 + +Decay Sc+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc-2 + +Decay Sc01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc01 + +Decay Sc02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc02 + + + +Decay Sc*++1 +1.0000 Lc+1 pi+ PHSP; +Enddecay +CDecay Sc*--1 + +Decay Sc*++2 +1.0000 Lc+2 pi+ PHSP; +Enddecay +CDecay Sc*--2 + +Decay Sc*+1 +1.0000 Lc+1 pi0 PHSP; +Enddecay +CDecay Sc*-1 + +Decay Sc*+2 +1.0000 Lc+2 pi0 PHSP; +Enddecay +CDecay Sc*-2 + +Decay Sc*01 +1.0000 Lc+1 pi- PHSP; +Enddecay +CDecay anti-Sc*01 + +Decay Sc*02 +1.0000 Lc+2 pi- PHSP; +Enddecay +CDecay anti-Sc*02 + + +####################################################################################### +# Combinations or special Charm Baryon decays (Preset decays 9300 - 9399) +####################################################################################### + +# Generic +Decay Lc+_9300 +1. Lambda_c+ PHSP; +Enddecay +CDecay Lc-_9300 + +Decay Lc+_9301 +# use PDG 2000 BF's Unfortunately, JETSET decays not allowed for aliased particles as of SP5 +# force anti-K*0 -> K- pi+ +0.016 p+ anti-K*0-Kp PHSP; +# Delta -> p+ pi 100% +0.0086 Delta++ K- PHSP; +# force Lambda(1520)0 -> p+ K- +0.0059 Lambda(1520)0_pK pi+ PHSP; +0.028 p+ K- pi+ PHSP; +Enddecay +CDecay Lc-_9301 + +###### +# Sigma_c and exitations that decay to a forced Lambda_c->pKpi +###### +Decay Sc++_9310 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc--_9310 + +Decay Sc+_9311 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc-_9311 + +Decay Sc0_9312 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc0_9312 + +Decay Sc*++_9313 +1.0000 Lc+_9301 pi+ PHSP; +Enddecay +CDecay Sc*--_9313 + +Decay Sc*+_9314 +1.0000 Lc+_9301 pi0 PHSP; +Enddecay +CDecay Sc*-_9314 + +Decay Sc*0_9315 +1.0000 Lc+_9301 pi- PHSP; +Enddecay +CDecay anti-Sc*0_9315 + +####################################################################################### +# Generic Xi_c Decays +Decay Xc+_9400 +1. Xi_c+ PHSP; +Enddecay +CDecay Xc-_9400 + +Decay Xc0_9401 +1. Xi_c0 PHSP; +Enddecay +CDecay anti-Xc0_9401 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + +####################################################################################### +# +# e+e- -> Gamma_Isr + Ds(*) Ds(*) |cos_th| < 0.9 for ISR gamma +# +# DsDs : Ds*Ds : Ds*Ds* = 1 : 3: 9 +# +# Tagging Ds: PhiPi+K*K +# Recoil Ds: (lept 1pr + semi 1pr + K0K) +# Tagging Modes are PhiPi (Phi->KK) and K*K (K*->Kpi) +####################################################################################### + +Decay vpho +#1.0 vphoton149 PHSP; +1.0 spike_400_750 gamma VECTORISR 0.9 0.9; +Enddecay + +Decay spike_400_750 +1.0 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +1.0 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; + +1.5 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +1.5 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; + +3.0 D_s*+1 D_s*-2 PHSP; +3.0 D_s*+2 D_s*-1 PHSP; +Enddecay + +#Reference: Phipi=0001, K*K=0008, (Phipi + K*K)=9014, Cocktail=9000 +# (lept 1pr + semi 1pr + K0K)=9015 +# "1" is the Tagging Ds +Decay D_s+1 +1.0 D_s+9014 PHSP; +Enddecay +CDecay D_s-1 + +# "2" is the Recoil Ds +Decay D_s+2 +1.0 D_s+9015 PHSP; +Enddecay +CDecay D_s-2 + +End diff --git a/BaBar_2014/ISR_charmonia_to_ll.dec b/BaBar_2014/ISR_charmonia_to_ll.dec new file mode 100644 index 0000000..6301fc8 --- /dev/null +++ b/BaBar_2014/ISR_charmonia_to_ll.dec @@ -0,0 +1,39 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Dec 19, 2002 +# +# e+e- -> ISRgamma Psi/Psi(2S), Psi(2S) -> pi+ pi- Psi, Psi -> l+ l- +# +############################################################ +Alias psiee J/psi +Alias psimm J/psi +Alias psipee psi(2S) +Alias psipmm psi(2S) + +Decay vpho +0.25 psiee gamma VECTORISR 1. 1. ; +0.25 psimm gamma VECTORISR 1. 1. ; +0.25 psipee gamma VECTORISR 1. 1. ; +0.25 psipmm gamma VECTORISR 1. 1. ; +Enddecay + +Decay psiee +1.0 e+ e- PHOTOS VLL; +Enddecay + +Decay psimm +1.0 mu+ mu- PHOTOS VLL; +Enddecay + +Decay psipee +1.0 psiee pi+ pi- VVPIPI; +Enddecay + +Decay psipmm +1.0 psimm pi+ pi- VVPIPI; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_KstarKstar_to_mununu_KshortKpipi.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_KstarKstar_to_mununu_KshortKpipi.dec new file mode 100644 index 0000000..58df30b --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_KstarKstar_to_mununu_KshortKpipi.dec @@ -0,0 +1,128 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay + + +Decay K*0 +1.0000 K+ pi- VSS; +Enddecay + +Decay K*- +1.0000 anti-K0 pi- VSS; +Enddecay + +Decay anti-K0 +1.000 K_S0 PHSP; +Enddecay + +Decay K_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_pipi_pipipi0.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_pipi_pipipi0.dec new file mode 100644 index 0000000..cb80aa3 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_pipi_pipipi0.dec @@ -0,0 +1,122 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 pi- eta' PHSP; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta' +1.0000 pi+ pi- eta PHSP; +0.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay eta +0.0000 gamma gamma PHSP; +1.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_pipigg.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_pipigg.dec new file mode 100644 index 0000000..30dbce5 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_pipigg.dec @@ -0,0 +1,122 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 pi- eta' PHSP; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta' +1.0000 pi+ pi- eta PHSP; +0.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay eta +1.0000 gamma gamma PHSP; +0.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_rhog.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_rhog.dec new file mode 100644 index 0000000..2297ddf --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPpi_to_mununu_rhog.dec @@ -0,0 +1,116 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 pi- eta' PHSP; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta' +0.0000 pi+ pi- eta PHSP; +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_pipi_pipipi0.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_pipi_pipipi0.dec new file mode 100644 index 0000000..b3541df --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_pipi_pipipi0.dec @@ -0,0 +1,122 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 rho- eta' SVS; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta' +1.0000 pi+ pi- eta PHSP; +0.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay eta +0.0000 gamma gamma PHSP; +1.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_pipigg.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_pipigg.dec new file mode 100644 index 0000000..da9f307 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_pipigg.dec @@ -0,0 +1,122 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 rho- eta' SVS; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta' +1.0000 pi+ pi- eta PHSP; +0.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay eta +1.0000 gamma gamma PHSP; +0.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_rhog.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_rhog.dec new file mode 100644 index 0000000..3981164 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etaPrho_to_mununu_rhog.dec @@ -0,0 +1,122 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 rho- eta' SVS; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta' +0.0000 pi+ pi- eta PHSP; +1.0000 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +Decay eta +0.0000 gamma gamma PHSP; +1.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etapi_to_mununu_gg.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etapi_to_mununu_gg.dec new file mode 100644 index 0000000..ae77407 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etapi_to_mununu_gg.dec @@ -0,0 +1,117 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 pi- eta PHSP; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta +1.0000 gamma gamma PHSP; +0.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etapi_to_mununu_pipipi0.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etapi_to_mununu_pipipi0.dec new file mode 100644 index 0000000..bc54c39 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etapi_to_mununu_pipipi0.dec @@ -0,0 +1,117 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 pi- eta PHSP; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta +0.0000 gamma gamma PHSP; +1.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etarho_to_mununu_gg.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etarho_to_mununu_gg.dec new file mode 100644 index 0000000..b3268fa --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etarho_to_mununu_gg.dec @@ -0,0 +1,117 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 rho- eta SVS; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta +1.0000 gamma gamma PHSP; +0.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etarho_to_mununu_pipipi0.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etarho_to_mununu_pipipi0.dec new file mode 100644 index 0000000..181d117 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_etarho_to_mununu_pipipi0.dec @@ -0,0 +1,117 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 rho- eta SVS; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +Decay eta +0.0000 gamma gamma PHSP; +1.0000 pi- pi+ pi0 ETA_DALITZ; +Enddecay + + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_f0pi_to_mununu_pipipi.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_f0pi_to_mununu_pipipi.dec new file mode 100644 index 0000000..2113ff4 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_f0pi_to_mununu_pipipi.dec @@ -0,0 +1,115 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 f_0 pi- PHSP; +Enddecay + +Decay f_0 +1.0000 pi+ pi- PHSP; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +End + diff --git a/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_phipipipipi_to_mununu_KKpipipi.dec b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_phipipipipi_to_mununu_KKpipipi.dec new file mode 100644 index 0000000..e68a7a8 --- /dev/null +++ b/BaBar_2014/ISR_psi4415_to_DsstarDsstar_to_taunu_phipipipipi_to_mununu_KKpipipi.dec @@ -0,0 +1,115 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jul 8, 2000 +# +# ISR Psi(4415), Psi(4415) -> D_s*+ D_s*- |L,S>=|1,0> + |1,2> +# Don't really know which amplitude to use so set |3,2> to 0 +# and use equal amounts of the L=1 amplitudes +# +############################################################ +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) + A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# +Define VVV_1_1 1.0 +Define VVV_1_0 0.0 +# +Define VVV_0_1 0.0 +Define VVV_0_0 -1.0 +Define VVV_0_-1 0.0 +# +Define VVV_-1_0 0.0 +Define VVV_-1_-1 1.0 +# +Define argVVV_1_1 0.0 +Define argVVV_1_0 0.0 +# +Define argVVV_0_1 0.0 +Define argVVV_0_0 0.0 +Define argVVV_0_-1 0.0 +# +Define argVVV_-1_0 0.0 +Define argVVV_-1_-1 0.0 +# + + +Define WWW_1_1 -2.0 +Define WWW_1_0 1.73205080756888 +# +Define WWW_0_1 1.73205080756888 +Define WWW_0_0 -4.0 +Define WWW_0_-1 1.73205080756888 +# +Define WWW_-1_0 1.73205080756888 +Define WWW_-1_-1 -2.0 +# +Define argWWW_1_1 0.0 +Define argWWW_1_0 0.0 +# +Define argWWW_0_1 0.0 +Define argWWW_0_0 0.0 +Define argWWW_0_-1 0.0 +# +Define argWWW_-1_0 0.0 +Define argWWW_-1_-1 0.0 +# + +#set vphoton to decay to gamma psi(xx) state with no angular restriction +Decay vpho +1.000 psi(4415) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay psi(4415) +0.500 D_s*+ D_s*- HELAMP VVV_1_1 argVVV_1_1 VVV_1_0 argVVV_1_0 + VVV_0_1 argVVV_0_1 VVV_0_0 argVVV_0_0 VVV_0_-1 argVVV_0_-1 + VVV_-1_0 argVVV_-1_0 VVV_-1_-1 argVVV_-1_-1; + +0.500 D_s*+ D_s*- HELAMP WWW_1_1 argWWW_1_1 WWW_1_0 argWWW_1_0 + WWW_0_1 argWWW_0_1 WWW_0_0 argWWW_0_0 WWW_0_-1 argWWW_0_-1 + WWW_-1_0 argWWW_-1_0 WWW_-1_-1 argWWW_-1_-1; + +Enddecay + +Decay D_s+ +1.0000 tau+ nu_tau SLN; +Enddecay + +Decay D_s- +1.0000 phi pi+ pi- pi- PHSP; +Enddecay + +Decay phi +1.0000 K+ K- VSS; +Enddecay + +Decay tau+ +0.0000 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +1.0000 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay + +End + diff --git a/BaBar_2014/ISR_psi_psi_to_ee.dec b/BaBar_2014/ISR_psi_psi_to_ee.dec new file mode 100644 index 0000000..5effb77 --- /dev/null +++ b/BaBar_2014/ISR_psi_psi_to_ee.dec @@ -0,0 +1,23 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 18, 2000 +# +# e+e- -> ISRgamma J/psi, J/psi -> e+ e- +# +############################################################ +#set vphoton to decay to gamma psi, no angular restriction +Alias psiee J/psi + +Decay psiee +1.0 e+ e- PHOTOS VLL; +Enddecay + +Decay vpho +1.000 psiee gamma VECTORISR 0.999999 0.999999; +Enddecay + + +End + + diff --git a/BaBar_2014/ISR_psi_psi_to_mumu.dec b/BaBar_2014/ISR_psi_psi_to_mumu.dec new file mode 100644 index 0000000..c8263e4 --- /dev/null +++ b/BaBar_2014/ISR_psi_psi_to_mumu.dec @@ -0,0 +1,24 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Jun 18, 2000 +# Mail: JOE@SLAC.STANFORD.EDU +# +# e+e- -> ISRgamma J/psi, J/psi -> mu+ mu- +# +############################################################ +#set vphoton to decay to gamma psi no angular restriction +Alias psimm J/psi + +Decay psimm +1.0 mu+ mu- PHOTOS VLL; +Enddecay + +Decay vpho +1.000 psimm gamma VECTORISR 0.999999 0.999999; +Enddecay + + +End + + diff --git a/BaBar_2014/ISR_psi_to_KsKpi.dec b/BaBar_2014/ISR_psi_to_KsKpi.dec new file mode 100644 index 0000000..7a090af --- /dev/null +++ b/BaBar_2014/ISR_psi_to_KsKpi.dec @@ -0,0 +1,29 @@ +############################################################ +# +# Author: Benjamin Mayer, Saclay +# Created: Nov 26, 2002 +# Mail: mayer@hep.saclay.cea.fr +# +# e+e- -> ISRgamma J/psi, J/psi -> Ks K+/- pi-/+ +# +############################################################ +#set vphoton to decay to gamma psi no angular restriction +Alias Mypsi J/psi +Alias MyK_S0 K_S0 +# +Decay vpho +1.000 Mypsi gamma VECTORISR 0.999999 0.999999; +Enddecay +# +Decay Mypsi +0.5 MyK_S0 K+ pi- PHSP; +0.5 MyK_S0 K- pi+ PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_psiprime_psiprime_to_psipipi__psi_to_ee.dec b/BaBar_2014/ISR_psiprime_psiprime_to_psipipi__psi_to_ee.dec new file mode 100644 index 0000000..d560ee7 --- /dev/null +++ b/BaBar_2014/ISR_psiprime_psiprime_to_psipipi__psi_to_ee.dec @@ -0,0 +1,26 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Feb 23, 2000 +# +# e+e- -> ISRgamma Psi(2S), Psi(2S) -> pi+ pi- Psi, Psi -> e+ e- +# +############################################################ +#set vphoton to decay to gamma psi(2S, no angular restriction +Decay vpho +1.000 psi(2S) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Alias psiee J/psi + +Decay psiee +1.0 e+ e- PHOTOS VLL; +Enddecay + +Decay psi(2S) +1.0 psiee pi+ pi- VVPIPI; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_psiprime_psiprime_to_psipipi__psi_to_mumu.dec b/BaBar_2014/ISR_psiprime_psiprime_to_psipipi__psi_to_mumu.dec new file mode 100644 index 0000000..6540dde --- /dev/null +++ b/BaBar_2014/ISR_psiprime_psiprime_to_psipipi__psi_to_mumu.dec @@ -0,0 +1,28 @@ +############################################################ +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Feb 23, 2000 +# Jun 18, 2000 add FSR (photos) +# Mail: JOE@SLAC.STANFORD.EDU +# +# e+e- -> ISRgamma Psi(2S), Psi(2S) -> pi+ pi- Psi, Psi -> mu+ mu- +# +############################################################ +#set vphoton to decay to gamma psi(2S, no angular restriction +Decay vpho +1.000 psi(2S) gamma VECTORISR 0.999999 0.999999; +Enddecay + +Alias psimm J/psi + +Decay psimm +1.0 mu+ mu- PHOTOS VLL; +Enddecay + +Decay psi(2S) +1.0 psimm pi+ pi- VVPIPI; +Enddecay + +End + + diff --git a/BaBar_2014/ISR_vph130.dec b/BaBar_2014/ISR_vph130.dec new file mode 100644 index 0000000..d707eb3 --- /dev/null +++ b/BaBar_2014/ISR_vph130.dec @@ -0,0 +1,5608 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 130 u d s :: 1 4 1 continuum +# Generic D decays + +Decay vpho +1.0 vphoton130 PHSP; +Enddecay + +End diff --git a/BaBar_2014/ISR_vph132.dec b/BaBar_2014/ISR_vph132.dec new file mode 100644 index 0000000..309ce82 --- /dev/null +++ b/BaBar_2014/ISR_vph132.dec @@ -0,0 +1,5640 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 132 25% psi(4040)D0D0 75% psi(4160)D*0D0 +# Generic D decays + +Decay vpho +1.0 vphoton132 PHSP; +Enddecay + +# Generic D0, D+, Ds decays + +Decay D_s+1 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +Decay D+1 +1.0 D+9100 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/ISR_vph133.dec b/BaBar_2014/ISR_vph133.dec new file mode 100644 index 0000000..fa7d4d6 --- /dev/null +++ b/BaBar_2014/ISR_vph133.dec @@ -0,0 +1,5640 @@ +####################################################################################### +# +# Author: Joe Izen, University of Texas at Dallas +# Created: Sep 17, 2000 Copyright 2000 +# +####################################################################################### +# This file sets up aliases of many forced decays. +# +# This particular file has aliases convenient for an +# ISR charm analysis +# +# Specify the actual request by decaying the Vphoton +# and the tagging D(s) (1) and the recoiling D(s) (2) into one +# of the aliases set in this file. For, "mixed" modes involving +# D0/D+ D0/Ds or D+/Ds, specify the "1" variety of each particle. +# +# Please do this in a second .dec file using the UDECAY mechanism. +# The tcl syntax is: +# +# mod talk GfiEvtGen +# UDECAY set "file1.dec file2.dec file3.dec" (specify any # of files) +# exit +# +# +# Hint: An AWG or group collaborating on similar projects +# cans set up shared aliases in a common UDECAY file and +# select which aliases to use in a common .dec file. This can avoid +# duplicated effort for X vs Y events where X and Y each have +# several decays that are to be generated separately, e.g. +# +# 4S -> Bx+ By- + CC +# 4S -> B+ B-, B+ ->PsiKs, B- -> D0_x Ds_y + +####################################################################################### +# First Definitions, then Aliases, then Decays +######################################################################################## + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds* |L,S> = partial-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> V V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 119-120 of Joe's log book +# +# L S M(L,S) +# +# 1 0 (1/sqrt(3)) * ( A( 1 1) +# + -A( 0 0) +# + A(-1 -1) ) +# +# 1 1 (1/2 ) * ( -A( 1 0) +# + A( 0 1) + A( 0 -1) +# + -A(-1 0) ) +# +# 1 2 (1/6 ) * ( -2*A( 1 1) + sqrt(3)*A( 1 0) +# + sqrt(3)*A( 0 1) + -4*A( 0 0) + sqrt(3)*A( 0 -1) +# + + sqrt(3)*A(-1 0) + -2*A(-1 -1) ) +# +# 3 2 (1/sqrt(10)) * ( A( 1 1) -A( 1 0) +# + -A( 0 1) + 2*A( 0 0) - A( 0 -1) +# + -A(-1 0) + A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 1 or 3 +# Note HELAMP Coefficent can be both positive and negative +# Psi(xxxx) -> Ds* Ds* |L,S>=|1,1> partial-wave is UNPHYSICAL +# Violates C parity, i.e. -1 should equal (-1)**(L+S) ==> S is even +# +########################################################### +# +Define VVV10_1_1 1.0 +Define VVV10_1_0 0.0 +# +Define VVV10_0_1 0.0 +Define VVV10_0_0 -1.0 +Define VVV10_0_-1 0.0 +# +Define VVV10_-1_0 0.0 +Define VVV10_-1_-1 1.0 +# +Define argVVV10_1_1 0.0 +Define argVVV10_1_0 0.0 +# +Define argVVV10_0_1 0.0 +Define argVVV10_0_0 0.0 +Define argVVV10_0_-1 0.0 +# +Define argVVV10_-1_0 0.0 +Define argVVV10_-1_-1 0.0 +# +########################################################### +# +Define VVV12_1_1 -2.0 +Define VVV12_1_0 1.73205080756888 +# +Define VVV12_0_1 1.73205080756888 +Define VVV12_0_0 -4.0 +Define VVV12_0_-1 1.73205080756888 +# +Define VVV12_-1_0 1.73205080756888 +Define VVV12_-1_-1 -2.0 +# +Define argVVV12_1_1 0.0 +Define argVVV12_1_0 0.0 +# +Define argVVV12_0_1 0.0 +Define argVVV12_0_0 0.0 +Define argVVV12_0_-1 0.0 +# +Define argVVV12_-1_0 0.0 +Define argVVV12_-1_-1 0.0 +# +########################################################### +# +Define VVV32_1_1 1.0 +Define VVV32_1_0 -1.0 +# +Define VVV32_0_1 -1.0 +Define VVV32_0_0 2.0 +Define VVV32_0_-1 -1.0 +# +Define VVV32_-1_0 -1.0 +Define VVV32_-1_-1 1.0 +# +Define argVVV32_1_1 0.0 +Define argVVV32_1_0 0.0 +# +Define argVVV32_0_1 0.0 +Define argVVV32_0_0 0.0 +Define argVVV32_0_-1 0.0 +# +Define argVVV32_-1_0 0.0 +Define argVVV32_-1_-1 0.0 +# +########################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds* Ds Pure P-wave +# S and D-wave are unphysical - violate parity +# +####################################################################################### +# set the helicity amplitudes here. +# +# Partial wave amplitudes for V -> V S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# +# Calculation on p 116-117 of joe's log book +# +# S-wave: M(L,S)=M(0,1)=(1/sqrt(3)) * ( A(1 0) + A(0 0) + A(-1 0) ) +# +# P-wave: M(L,S)=M(1,1)=(1/sqrt(2)) * (-A(1 0) + A(-1 0) ) +# +# D-wave: M(L,S)=M(2,1)=(1/sqrt(6)) * ( A(1 0) - 2*A(0 0) + A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires P-wave +# Note HELAMP Coefficent can be both positive and negative +# +####################################################################################### +# +Define VVS_1_0 -1.0 +Define VVS_0_0 0.0 +Define VVS_-1_0 1.0 +Define argVVS_1_0 0. +Define argVVS_0_0 0. +Define argVVS_-1_0 0. +# +####################################################################################### + +# Aliases start here + +####################################################################################### + +####################################################################################### +# Aliases for virtual photon. Each corresponds to a predefined +# production mechanism. 1-8 correspond to the 8 "pure" psi aliases +# >=10 are preset mixes for MC production + +Alias vphoton001 vpho +Alias vphoton002 vpho +Alias vphoton003 vpho +Alias vphoton004 vpho +Alias vphoton005 vpho +Alias vphoton006 vpho +Alias vphoton007 vpho +Alias vphoton008 vpho +Alias vphoton009 vpho +Alias vphoton010 vpho +Alias vphoton011 vpho +Alias vphoton012 vpho +Alias vphoton013 vpho +Alias vphoton014 vpho +Alias vphoton015 vpho +Alias vphoton016 vpho +Alias vphoton017 vpho +Alias vphoton018 vpho +Alias vphoton019 vpho +Alias vphoton020 vpho +Alias vphoton021 vpho +Alias vphoton022 vpho +Alias vphoton023 vpho +Alias vphoton024 vpho +Alias vphoton025 vpho +Alias vphoton026 vpho +Alias vphoton027 vpho +Alias vphoton028 vpho +Alias vphoton029 vpho +Alias vphoton030 vpho +Alias vphoton031 vpho +Alias vphoton032 vpho +Alias vphoton033 vpho +Alias vphoton034 vpho +Alias vphoton035 vpho +Alias vphoton036 vpho +Alias vphoton037 vpho +Alias vphoton038 vpho +Alias vphoton039 vpho +Alias vphoton040 vpho +Alias vphoton041 vpho +Alias vphoton042 vpho +Alias vphoton043 vpho +Alias vphoton044 vpho +Alias vphoton045 vpho +Alias vphoton046 vpho +Alias vphoton047 vpho +Alias vphoton048 vpho +Alias vphoton049 vpho +Alias vphoton050 vpho +Alias vphoton051 vpho +Alias vphoton052 vpho +Alias vphoton053 vpho +Alias vphoton054 vpho +Alias vphoton055 vpho +Alias vphoton056 vpho +Alias vphoton057 vpho +Alias vphoton058 vpho +Alias vphoton059 vpho +Alias vphoton060 vpho +Alias vphoton061 vpho +Alias vphoton062 vpho +Alias vphoton063 vpho +Alias vphoton064 vpho +Alias vphoton065 vpho +Alias vphoton066 vpho +Alias vphoton067 vpho +Alias vphoton068 vpho +Alias vphoton069 vpho +Alias vphoton070 vpho +Alias vphoton071 vpho +Alias vphoton072 vpho +Alias vphoton073 vpho +Alias vphoton074 vpho +Alias vphoton075 vpho +Alias vphoton076 vpho +Alias vphoton077 vpho +Alias vphoton078 vpho +Alias vphoton079 vpho +Alias vphoton080 vpho +Alias vphoton081 vpho +Alias vphoton082 vpho +Alias vphoton083 vpho +Alias vphoton084 vpho +Alias vphoton085 vpho +Alias vphoton086 vpho +Alias vphoton087 vpho +Alias vphoton088 vpho +Alias vphoton089 vpho +Alias vphoton090 vpho +Alias vphoton091 vpho +Alias vphoton092 vpho +Alias vphoton093 vpho +Alias vphoton094 vpho +Alias vphoton095 vpho +Alias vphoton096 vpho +Alias vphoton097 vpho +Alias vphoton098 vpho +Alias vphoton099 vpho +Alias vphoton100 vpho +Alias vphoton101 vpho +Alias vphoton102 vpho +Alias vphoton103 vpho +Alias vphoton104 vpho +Alias vphoton105 vpho +Alias vphoton106 vpho +Alias vphoton107 vpho +Alias vphoton108 vpho +Alias vphoton109 vpho +Alias vphoton110 vpho +Alias vphoton111 vpho +Alias vphoton112 vpho +Alias vphoton113 vpho +Alias vphoton114 vpho +Alias vphoton115 vpho +Alias vphoton116 vpho +Alias vphoton117 vpho +Alias vphoton118 vpho +Alias vphoton119 vpho +Alias vphoton120 vpho +Alias vphoton121 vpho +Alias vphoton122 vpho +Alias vphoton123 vpho +Alias vphoton124 vpho +Alias vphoton125 vpho +Alias vphoton126 vpho +Alias vphoton127 vpho +Alias vphoton128 vpho +Alias vphoton129 vpho +Alias vphoton130 vpho +Alias vphoton131 vpho +Alias vphoton132 vpho +Alias vphoton133 vpho +Alias vphoton134 vpho +Alias vphoton135 vpho +Alias vphoton136 vpho +Alias vphoton137 vpho +Alias vphoton138 vpho +Alias vphoton139 vpho +Alias vphoton140 vpho + +####################################################################################### +# Aliases for the Psi resonances by Decay mode and Partial Wave +# --hopefully, the naming convention is not too obscure + +Alias psi(4040)DsDs psi(4040) + +Alias psi(4160)DsDs psi(4160) +Alias psi(4160)Ds*Ds psi(4160) + +Alias psi(4415)DsDs psi(4415) +Alias psi(4415)Ds*Ds psi(4415) +Alias psi(4415)Ds*Ds*10 psi(4415) +Alias psi(4415)Ds*Ds*12 psi(4415) +Alias psi(4415)Ds*Ds*32 psi(4415) + + + +Alias psi(3770)D0D0 psi(3770) + +Alias psi(4040)D0D0 psi(4040) +Alias psi(4040)D*0D0 psi(4040) +Alias psi(4040)D*0D*010 psi(4040) +Alias psi(4040)D*0D*012 psi(4040) +Alias psi(4040)D*0D*032 psi(4040) + +Alias psi(4160)D0D0 psi(4160) +Alias psi(4160)D*0D0 psi(4160) +Alias psi(4160)D*0D*010 psi(4160) +Alias psi(4160)D*0D*012 psi(4160) +Alias psi(4160)D*0D*032 psi(4160) + +Alias psi(4415)D0D0 psi(4415) +Alias psi(4415)D*0D0 psi(4415) +Alias psi(4415)D*0D*010 psi(4415) +Alias psi(4415)D*0D*012 psi(4415) +Alias psi(4415)D*0D*032 psi(4415) + +Alias psi(3770)D+D- psi(3770) + +Alias psi(4040)D+D- psi(4040) +Alias psi(4040)D*+D- psi(4040) +Alias psi(4040)D*+D*-10 psi(4040) +Alias psi(4040)D*+D*-12 psi(4040) +Alias psi(4040)D*+D*-32 psi(4040) + +Alias psi(4160)D+D- psi(4160) +Alias psi(4160)D*+D- psi(4160) +Alias psi(4160)D*+D*-10 psi(4160) +Alias psi(4160)D*+D*-12 psi(4160) +Alias psi(4160)D*+D*-32 psi(4160) + +Alias psi(4415)D+D- psi(4415) +Alias psi(4415)D*+D- psi(4415) +Alias psi(4415)D*+D*-10 psi(4415) +Alias psi(4415)D*+D*-12 psi(4415) +Alias psi(4415)D*+D*-32 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Alias psi(4040)D0D0pi0 psi(4040) +Alias psi(4040)D*0D0pi0 psi(4040) + +Alias psi(4160)D0D0pi0 psi(4160) +Alias psi(4160)D*0D0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0 psi(4160) + +Alias psi(4415)D0D0pi0 psi(4415) +Alias psi(4415)D*0D0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0 psi(4160) + +Alias psi(4040)D+D-pi0 psi(4040) +Alias psi(4040)D*+D-pi0 psi(4040) + +Alias psi(4160)D+D-pi0 psi(4160) +Alias psi(4160)D*+D-pi0 psi(4160) +Alias psi(4160)D*+D*-pi0 psi(4160) + +Alias psi(4415)D+D-pi0 psi(4415) +Alias psi(4415)D*+D-pi0 psi(4415) +Alias psi(4415)D*+D*-pi0 psi(4415) + +Alias psi(4160)DsDspi0 psi(4160) + +Alias psi(4415)DsDspi0 psi(4415) +Alias psi(4415)Ds*Dspi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0 psi(4415) + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Alias psi(4040)D+D0pi- psi(4040) +Alias psi(4040)D*+D0pi- psi(4040) + +Alias psi(4160)D+D0pi- psi(4160) +Alias psi(4160)D*+D0pi- psi(4160) +Alias psi(4160)D+D*0pi- psi(4160) +Alias psi(4160)D*+D*0pi- psi(4160) + +Alias psi(4415)D+D0pi- psi(4415) +Alias psi(4415)D*+D0pi- psi(4415) +Alias psi(4415)D+D*0pi- psi(4415) +Alias psi(4415)D*+D*0pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Alias psi(4040)D0D0pi0pi0 psi(4040) +Alias psi(4040)D*0D0pi0pi0 psi(4040) + +Alias psi(4160)D0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D0pi0pi0 psi(4160) +Alias psi(4160)D*0D*0pi0pi0 psi(4160) + +Alias psi(4415)D0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D0pi0pi0 psi(4415) +Alias psi(4415)D*0D*0pi0pi0 psi(4415) + +Alias psi(4040)D+D-pi0pi0 psi(4040) +Alias psi(4040)D*+D-pi0pi0 psi(4040) + +Alias psi(4160)D+D-pi0pi0 psi(4160) +Alias psi(4160)D*+D-pi0pi0 psi(4160) + +Alias psi(4415)D+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D-pi0pi0 psi(4415) +Alias psi(4415)D*+D*-pi0pi0 psi(4415) + +Alias psi(4415)DsDspi0pi0 psi(4415) +Alias psi(4415)Ds*Dspi0pi0 psi(4415) +Alias psi(4415)Ds*Ds*pi0pi0 psi(4415) + + + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Alias psi(4040)D+D0pi-pi0 psi(4040) +Alias psi(4040)D*+D0pi-pi0 psi(4040) +Alias psi(4040)D*0D+pi-pi0 psi(4040) + +Alias psi(4160)D+D0pi-pi0 psi(4160) +Alias psi(4160)D*+D0pi-pi0 psi(4160) +Alias psi(4160)D*0D+pi-pi0 psi(4160) + +Alias psi(4415)D+D0pi-pi0 psi(4415) +Alias psi(4415)D*+D0pi-pi0 psi(4415) +Alias psi(4415)D*0D+pi-pi0 psi(4415) +Alias psi(4415)D*+D*0pi-pi0 psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Alias psi(4040)D0D0pi+pi- psi(4040) +Alias psi(4040)D*0D0pi+pi- psi(4040) + +Alias psi(4160)D0D0pi+pi- psi(4160) +Alias psi(4160)D*0D0pi+pi- psi(4160) + +Alias psi(4415)D0D0pi+pi- psi(4415) +Alias psi(4415)D*0D0pi+pi- psi(4415) +Alias psi(4415)D*0D*pi+pi- psi(4415) + +Alias psi(4040)D+D-pi+pi- psi(4040) +Alias psi(4040)D*+D-pi+pi- psi(4040) + +Alias psi(4160)D+D-pi+pi- psi(4160) +Alias psi(4160)D*+D-pi+pi- psi(4160) + +Alias psi(4415)D+D-pi+pi- psi(4415) +Alias psi(4415)D*+D-pi+pi- psi(4415) +Alias psi(4415)D*+D*-pi+pi- psi(4415) + +Alias psi(4415)DsDspi+pi- psi(4415) +Alias psi(4415)Ds*Dspi+pi- psi(4415) +Alias psi(4415)Ds*Ds*pi+pi- psi(4415) + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Alias psi(4415)DsD0K- psi(4415) +Alias psi(4415)DsD-K0 psi(4415) +Alias psi(4415)DsD-K0L psi(4415) +Alias psi(4415)DsD-K0-pp psi(4415) +Alias psi(4415)DsD-K0-00 psi(4415) +Alias psi(4415)DsD-K0-neu psi(4415) + +####################################################################################### +# Generic Ds - no specific decays here +####################################################################################### + +Alias D_s*+1 D_s*+ +Alias D_s*+2 D_s*+ +Alias D_s*-1 D_s*- +Alias D_s*-2 D_s*- +Alias D_s+1 D_s+ +Alias D_s+2 D_s+ +Alias D_s-1 D_s- +Alias D_s-2 D_s- + +ChargeConj D_s*+1 D_s*-1 +ChargeConj D_s*+2 D_s*-2 +ChargeConj D_s+1 D_s-1 +ChargeConj D_s+2 D_s-2 + +####################################################################################### +# Generic D - no specific decays here +####################################################################################### + +Alias D*+1 D*+ +Alias D*+2 D*+ +Alias D*-1 D*- +Alias D*-2 D*- +Alias D+1 D+ +Alias D+2 D+ +Alias D-1 D- +Alias D-2 D- + +ChargeConj D*+1 D*-1 +ChargeConj D*+2 D*-2 +ChargeConj D+1 D-1 +ChargeConj D+2 D-2 + +Alias D*01 D*0 +Alias D*02 D*0 +Alias anti-D*01 anti-D*0 +Alias anti-D*02 anti-D*0 +Alias D01 D0 +Alias D02 D0 +Alias anti-D01 anti-D0 +Alias anti-D02 anti-D0 + +ChargeConj D*01 anti-D*01 +ChargeConj D*02 anti-D*02 +ChargeConj D01 anti-D01 +ChargeConj D02 anti-D02 + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + +Alias D_s+0000 D_s+ +Alias D_s-0000 D_s- +ChargeConj D_s+0000 D_s-0000 + +Alias D_s+0001 D_s+ +Alias D_s-0001 D_s- +ChargeConj D_s+0001 D_s-0001 + +Alias D_s+0002 D_s+ +Alias D_s-0002 D_s- +ChargeConj D_s+0002 D_s-0002 + +Alias D_s+0003 D_s+ +Alias D_s-0003 D_s- +ChargeConj D_s+0003 D_s-0003 + +Alias D_s+0004 D_s+ +Alias D_s-0004 D_s- +ChargeConj D_s+0004 D_s-0004 + +Alias D_s+0005 D_s+ +Alias D_s-0005 D_s- +ChargeConj D_s+0005 D_s-0005 + +Alias D_s+0006 D_s+ +Alias D_s-0006 D_s- +ChargeConj D_s+0006 D_s-0006 + +Alias D_s+0007 D_s+ +Alias D_s-0007 D_s- +ChargeConj D_s+0007 D_s-0007 + +Alias D_s+0008 D_s+ +Alias D_s-0008 D_s- +ChargeConj D_s+0008 D_s-0008 + +Alias D_s+0009 D_s+ +Alias D_s-0009 D_s- +ChargeConj D_s+0009 D_s-0009 + +Alias D_s+0010 D_s+ +Alias D_s-0010 D_s- +ChargeConj D_s+0010 D_s-0010 + +Alias D_s+0011 D_s+ +Alias D_s-0011 D_s- +ChargeConj D_s+0011 D_s-0011 + +Alias D_s+0012 D_s+ +Alias D_s-0012 D_s- +ChargeConj D_s+0012 D_s-0012 + +Alias D_s+0013 D_s+ +Alias D_s-0013 D_s- +ChargeConj D_s+0013 D_s-0013 + +Alias D_s+0014 D_s+ +Alias D_s-0014 D_s- +ChargeConj D_s+0014 D_s-0014 + +Alias D_s+0015 D_s+ +Alias D_s-0015 D_s- +ChargeConj D_s+0015 D_s-0015 + +Alias D_s+0016 D_s+ +Alias D_s-0016 D_s- +ChargeConj D_s+0016 D_s-0016 + +Alias D_s+0017 D_s+ +Alias D_s-0017 D_s- +ChargeConj D_s+0017 D_s-0017 + +Alias D_s+0018 D_s+ +Alias D_s-0018 D_s- +ChargeConj D_s+0018 D_s-0018 + +Alias D_s+0019 D_s+ +Alias D_s-0019 D_s- +ChargeConj D_s+0019 D_s-0019 + +Alias D_s+0020 D_s+ +Alias D_s-0020 D_s- +ChargeConj D_s+0020 D_s-0020 + +Alias D_s+0021 D_s+ +Alias D_s-0021 D_s- +ChargeConj D_s+0021 D_s-0021 + +Alias D_s+0022 D_s+ +Alias D_s-0022 D_s- +ChargeConj D_s+0022 D_s-0022 + +Alias D_s+0023 D_s+ +Alias D_s-0023 D_s- +ChargeConj D_s+0023 D_s-0023 + +Alias D_s+0024 D_s+ +Alias D_s-0024 D_s- +ChargeConj D_s+0024 D_s-0024 + +Alias D_s+0025 D_s+ +Alias D_s-0025 D_s- +ChargeConj D_s+0025 D_s-0025 + +Alias D_s+0026 D_s+ +Alias D_s-0026 D_s- +ChargeConj D_s+0026 D_s-0026 + +Alias D_s+0027 D_s+ +Alias D_s-0027 D_s- +ChargeConj D_s+0027 D_s-0027 + +Alias D_s+0028 D_s+ +Alias D_s-0028 D_s- +ChargeConj D_s+0028 D_s-0028 + +Alias D_s+0029 D_s+ +Alias D_s-0029 D_s- +ChargeConj D_s+0029 D_s-0029 + +Alias D_s+0030 D_s+ +Alias D_s-0030 D_s- +ChargeConj D_s+0030 D_s-0030 + +Alias D_s+0031 D_s+ +Alias D_s-0031 D_s- +ChargeConj D_s+0031 D_s-0031 + +Alias D_s+0032 D_s+ +Alias D_s-0032 D_s- +ChargeConj D_s+0032 D_s-0032 + +Alias D_s+0033 D_s+ +Alias D_s-0033 D_s- +ChargeConj D_s+0033 D_s-0033 + +Alias D_s+0034 D_s+ +Alias D_s-0034 D_s- +ChargeConj D_s+0034 D_s-0034 + +Alias D_s+0035 D_s+ +Alias D_s-0035 D_s- +ChargeConj D_s+0035 D_s-0035 + +Alias D_s+0036 D_s+ +Alias D_s-0036 D_s- +ChargeConj D_s+0036 D_s-0036 + +Alias D_s+0037 D_s+ +Alias D_s-0037 D_s- +ChargeConj D_s+0037 D_s-0037 + +Alias D_s+0038 D_s+ +Alias D_s-0038 D_s- +ChargeConj D_s+0038 D_s-0038 + +Alias D_s+0039 D_s+ +Alias D_s-0039 D_s- +ChargeConj D_s+0039 D_s-0039 + +Alias D_s+0040 D_s+ +Alias D_s-0040 D_s- +ChargeConj D_s+0040 D_s-0040 + +Alias D_s+0041 D_s+ +Alias D_s-0041 D_s- +ChargeConj D_s+0041 D_s-0041 + +Alias D_s+0042 D_s+ +Alias D_s-0042 D_s- +ChargeConj D_s+0042 D_s-0042 + +Alias D_s+0043 D_s+ +Alias D_s-0043 D_s- +ChargeConj D_s+0043 D_s-0043 + +Alias D_s+0044 D_s+ +Alias D_s-0044 D_s- +ChargeConj D_s+0044 D_s-0044 + +Alias D_s+0045 D_s+ +Alias D_s-0045 D_s- +ChargeConj D_s+0045 D_s-0045 + +Alias D_s+0046 D_s+ +Alias D_s-0046 D_s- +ChargeConj D_s+0046 D_s-0046 + +Alias D_s+0047 D_s+ +Alias D_s-0047 D_s- +ChargeConj D_s+0047 D_s-0047 + +Alias D_s+0048 D_s+ +Alias D_s-0048 D_s- +ChargeConj D_s+0048 D_s-0048 + +Alias D_s+0049 D_s+ +Alias D_s-0049 D_s- +ChargeConj D_s+0049 D_s-0049 + +Alias D_s+0050 D_s+ +Alias D_s-0050 D_s- +ChargeConj D_s+0050 D_s-0050 + +Alias D_s+0051 D_s+ +Alias D_s-0051 D_s- +ChargeConj D_s+0051 D_s-0051 + +Alias D_s+0052 D_s+ +Alias D_s-0052 D_s- +ChargeConj D_s+0052 D_s-0052 + +Alias D_s+0053 D_s+ +Alias D_s-0053 D_s- +ChargeConj D_s+0053 D_s-0053 + +Alias D_s+0054 D_s+ +Alias D_s-0054 D_s- +ChargeConj D_s+0054 D_s-0054 + +Alias D_s+0055 D_s+ +Alias D_s-0055 D_s- +ChargeConj D_s+0055 D_s-0055 + +Alias D_s+0056 D_s+ +Alias D_s-0056 D_s- +ChargeConj D_s+0056 D_s-0056 + +Alias D_s+0057 D_s+ +Alias D_s-0057 D_s- +ChargeConj D_s+0057 D_s-0057 + +Alias D_s+0058 D_s+ +Alias D_s-0058 D_s- +ChargeConj D_s+0058 D_s-0058 + +Alias D_s+0059 D_s+ +Alias D_s-0059 D_s- +ChargeConj D_s+0059 D_s-0059 + +Alias D_s+0060 D_s+ +Alias D_s-0060 D_s- +ChargeConj D_s+0060 D_s-0060 + +Alias D_s+0061 D_s+ +Alias D_s-0061 D_s- +ChargeConj D_s+0061 D_s-0061 + +Alias D_s+0062 D_s+ +Alias D_s-0062 D_s- +ChargeConj D_s+0062 D_s-0062 + +Alias D_s+0063 D_s+ +Alias D_s-0063 D_s- +ChargeConj D_s+0063 D_s-0063 + +Alias D_s+0064 D_s+ +Alias D_s-0064 D_s- +ChargeConj D_s+0064 D_s-0064 + +Alias D_s+0065 D_s+ +Alias D_s-0065 D_s- +ChargeConj D_s+0065 D_s-0065 + +Alias D_s+0066 D_s+ +Alias D_s-0066 D_s- +ChargeConj D_s+0066 D_s-0066 + +Alias D_s+0067 D_s+ +Alias D_s-0067 D_s- +ChargeConj D_s+0067 D_s-0067 + +Alias D_s+0068 D_s+ +Alias D_s-0068 D_s- +ChargeConj D_s+0068 D_s-0068 + +Alias D_s+0069 D_s+ +Alias D_s-0069 D_s- +ChargeConj D_s+0069 D_s-0069 + +Alias D_s+0070 D_s+ +Alias D_s-0070 D_s- +ChargeConj D_s+0070 D_s-0070 + +Alias D_s+0071 D_s+ +Alias D_s-0071 D_s- +ChargeConj D_s+0071 D_s-0071 + +Alias D_s+0072 D_s+ +Alias D_s-0072 D_s- +ChargeConj D_s+0072 D_s-0072 + +Alias D_s+0073 D_s+ +Alias D_s-0073 D_s- +ChargeConj D_s+0073 D_s-0073 + +Alias D_s+0074 D_s+ +Alias D_s-0074 D_s- +ChargeConj D_s+0074 D_s-0074 + +Alias D_s+0075 D_s+ +Alias D_s-0075 D_s- +ChargeConj D_s+0075 D_s-0075 + +Alias D_s+0076 D_s+ +Alias D_s-0076 D_s- +ChargeConj D_s+0076 D_s-0076 + +Alias D_s+0077 D_s+ +Alias D_s-0077 D_s- +ChargeConj D_s+0077 D_s-0077 + +Alias D_s+0078 D_s+ +Alias D_s-0078 D_s- +ChargeConj D_s+0078 D_s-0078 + +Alias D_s+0079 D_s+ +Alias D_s-0079 D_s- +ChargeConj D_s+0079 D_s-0079 + +Alias D_s+0080 D_s+ +Alias D_s-0080 D_s- +ChargeConj D_s+0080 D_s-0080 + +Alias D_s+0081 D_s+ +Alias D_s-0081 D_s- +ChargeConj D_s+0081 D_s-0081 + +Alias D_s+0082 D_s+ +Alias D_s-0082 D_s- +ChargeConj D_s+0082 D_s-0082 + +Alias D_s+0083 D_s+ +Alias D_s-0083 D_s- +ChargeConj D_s+0083 D_s-0083 + +Alias D_s+0084 D_s+ +Alias D_s-0084 D_s- +ChargeConj D_s+0084 D_s-0084 + +Alias D_s+0085 D_s+ +Alias D_s-0085 D_s- +ChargeConj D_s+0085 D_s-0085 + +Alias D_s+0086 D_s+ +Alias D_s-0086 D_s- +ChargeConj D_s+0086 D_s-0086 + +Alias D_s+0087 D_s+ +Alias D_s-0087 D_s- +ChargeConj D_s+0087 D_s-0087 + +Alias D_s+0088 D_s+ +Alias D_s-0088 D_s- +ChargeConj D_s+0088 D_s-0088 + +Alias D_s+0089 D_s+ +Alias D_s-0089 D_s- +ChargeConj D_s+0089 D_s-0089 + +Alias D_s+0090 D_s+ +Alias D_s-0090 D_s- +ChargeConj D_s+0090 D_s-0090 + +Alias D_s+0091 D_s+ +Alias D_s-0091 D_s- +ChargeConj D_s+0091 D_s-0091 + +Alias D_s+0092 D_s+ +Alias D_s-0092 D_s- +ChargeConj D_s+0092 D_s-0092 + +Alias D_s+0093 D_s+ +Alias D_s-0093 D_s- +ChargeConj D_s+0093 D_s-0093 + +Alias D_s+0094 D_s+ +Alias D_s-0094 D_s- +ChargeConj D_s+0094 D_s-0094 + +Alias D_s+0095 D_s+ +Alias D_s-0095 D_s- +ChargeConj D_s+0095 D_s-0095 + +Alias D_s+0096 D_s+ +Alias D_s-0096 D_s- +ChargeConj D_s+0096 D_s-0096 + +Alias D_s+0097 D_s+ +Alias D_s-0097 D_s- +ChargeConj D_s+0097 D_s-0097 + +Alias D_s+0098 D_s+ +Alias D_s-0098 D_s- +ChargeConj D_s+0098 D_s-0098 + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +Alias D_s+1000 D_s+ +Alias D_s-1000 D_s- +ChargeConj D_s+1000 D_s-1000 + +Alias D_s+1001 D_s+ +Alias D_s-1001 D_s- +ChargeConj D_s+1001 D_s-1001 + +Alias D_s+1002 D_s+ +Alias D_s-1002 D_s- +ChargeConj D_s+1002 D_s-1002 + +Alias D_s+1003 D_s+ +Alias D_s-1003 D_s- +ChargeConj D_s+1003 D_s-1003 + +Alias D_s+1004 D_s+ +Alias D_s-1004 D_s- +ChargeConj D_s+1004 D_s-1004 + +Alias D_s+1005 D_s+ +Alias D_s-1005 D_s- +ChargeConj D_s+1005 D_s-1005 + +Alias D_s+1006 D_s+ +Alias D_s-1006 D_s- +ChargeConj D_s+1006 D_s-1006 + +Alias D_s+1007 D_s+ +Alias D_s-1007 D_s- +ChargeConj D_s+1007 D_s-1007 + +Alias D_s+1008 D_s+ +Alias D_s-1008 D_s- +ChargeConj D_s+1008 D_s-1008 + +Alias D_s+1009 D_s+ +Alias D_s-1009 D_s- +ChargeConj D_s+1009 D_s-1009 + +Alias D_s+1010 D_s+ +Alias D_s-1010 D_s- +ChargeConj D_s+1010 D_s-1010 + +Alias D_s+1011 D_s+ +Alias D_s-1011 D_s- +ChargeConj D_s+1011 D_s-1011 + +Alias D_s+1012 D_s+ +Alias D_s-1012 D_s- +ChargeConj D_s+1012 D_s-1012 + +Alias D_s+1013 D_s+ +Alias D_s-1013 D_s- +ChargeConj D_s+1013 D_s-1013 + +Alias D_s+1014 D_s+ +Alias D_s-1014 D_s- +ChargeConj D_s+1014 D_s-1014 + +Alias D_s+1015 D_s+ +Alias D_s-1015 D_s- +ChargeConj D_s+1015 D_s-1015 + +Alias D_s+1016 D_s+ +Alias D_s-1016 D_s- +ChargeConj D_s+1016 D_s-1016 + +Alias D_s+1017 D_s+ +Alias D_s-1017 D_s- +ChargeConj D_s+1017 D_s-1017 + +Alias D_s+1018 D_s+ +Alias D_s-1018 D_s- +ChargeConj D_s+1018 D_s-1018 + +Alias D_s+1019 D_s+ +Alias D_s-1019 D_s- +ChargeConj D_s+1019 D_s-1019 + +Alias D_s+1020 D_s+ +Alias D_s-1020 D_s- +ChargeConj D_s+1020 D_s-1020 + +Alias D_s+1021 D_s+ +Alias D_s-1021 D_s- +ChargeConj D_s+1021 D_s-1021 + +Alias D_s+1022 D_s+ +Alias D_s-1022 D_s- +ChargeConj D_s+1022 D_s-1022 + +Alias D_s+1023 D_s+ +Alias D_s-1023 D_s- +ChargeConj D_s+1023 D_s-1023 + +Alias D_s+1024 D_s+ +Alias D_s-1024 D_s- +ChargeConj D_s+1024 D_s-1024 + +Alias D_s+1025 D_s+ +Alias D_s-1025 D_s- +ChargeConj D_s+1025 D_s-1025 + +Alias D_s+1026 D_s+ +Alias D_s-1026 D_s- +ChargeConj D_s+1026 D_s-1026 + +Alias D_s+1027 D_s+ +Alias D_s-1027 D_s- +ChargeConj D_s+1027 D_s-1027 + +Alias D_s+1028 D_s+ +Alias D_s-1028 D_s- +ChargeConj D_s+1028 D_s-1028 + +Alias D_s+1029 D_s+ +Alias D_s-1029 D_s- +ChargeConj D_s+1029 D_s-1029 + +Alias D_s+1030 D_s+ +Alias D_s-1030 D_s- +ChargeConj D_s+1030 D_s-1030 + +Alias D_s+1031 D_s+ +Alias D_s-1031 D_s- +ChargeConj D_s+1031 D_s-1031 + +Alias D_s+1032 D_s+ +Alias D_s-1032 D_s- +ChargeConj D_s+1032 D_s-1032 + +Alias D_s+1033 D_s+ +Alias D_s-1033 D_s- +ChargeConj D_s+1033 D_s-1033 + +Alias D_s+1034 D_s+ +Alias D_s-1034 D_s- +ChargeConj D_s+1034 D_s-1034 + +Alias D_s+1035 D_s+ +Alias D_s-1035 D_s- +ChargeConj D_s+1035 D_s-1035 + +Alias D_s+1036 D_s+ +Alias D_s-1036 D_s- +ChargeConj D_s+1036 D_s-1036 + +Alias D_s+1037 D_s+ +Alias D_s-1037 D_s- +ChargeConj D_s+1037 D_s-1037 + +Alias D_s+1038 D_s+ +Alias D_s-1038 D_s- +ChargeConj D_s+1038 D_s-1038 + +Alias D_s+1039 D_s+ +Alias D_s-1039 D_s- +ChargeConj D_s+1039 D_s-1039 + +Alias D_s+1040 D_s+ +Alias D_s-1040 D_s- +ChargeConj D_s+1040 D_s-1040 + +Alias D_s+1041 D_s+ +Alias D_s-1041 D_s- +ChargeConj D_s+1041 D_s-1041 + +Alias D_s+1042 D_s+ +Alias D_s-1042 D_s- +ChargeConj D_s+1042 D_s-1042 + +Alias D_s+1043 D_s+ +Alias D_s-1043 D_s- +ChargeConj D_s+1043 D_s-1043 + +Alias D_s+1044 D_s+ +Alias D_s-1044 D_s- +ChargeConj D_s+1044 D_s-1044 + +Alias D_s+1045 D_s+ +Alias D_s-1045 D_s- +ChargeConj D_s+1045 D_s-1045 + +Alias D_s+1046 D_s+ +Alias D_s-1046 D_s- +ChargeConj D_s+1046 D_s-1046 + +Alias D_s+1047 D_s+ +Alias D_s-1047 D_s- +ChargeConj D_s+1047 D_s-1047 + +Alias D_s+1048 D_s+ +Alias D_s-1048 D_s- +ChargeConj D_s+1048 D_s-1048 + +Alias D_s+1049 D_s+ +Alias D_s-1049 D_s- +ChargeConj D_s+1049 D_s-1049 + +Alias D_s+1050 D_s+ +Alias D_s-1050 D_s- +ChargeConj D_s+1050 D_s-1050 + +Alias D_s+1051 D_s+ +Alias D_s-1051 D_s- +ChargeConj D_s+1051 D_s-1051 + +Alias D_s+1052 D_s+ +Alias D_s-1052 D_s- +ChargeConj D_s+1052 D_s-1052 + +Alias D_s+1053 D_s+ +Alias D_s-1053 D_s- +ChargeConj D_s+1053 D_s-1053 + +Alias D_s+1054 D_s+ +Alias D_s-1054 D_s- +ChargeConj D_s+1054 D_s-1054 + +Alias D_s+1055 D_s+ +Alias D_s-1055 D_s- +ChargeConj D_s+1055 D_s-1055 + +Alias D_s+1056 D_s+ +Alias D_s-1056 D_s- +ChargeConj D_s+1056 D_s-1056 + +Alias D_s+1057 D_s+ +Alias D_s-1057 D_s- +ChargeConj D_s+1057 D_s-1057 + +Alias D_s+1058 D_s+ +Alias D_s-1058 D_s- +ChargeConj D_s+1058 D_s-1058 + +Alias D_s+1059 D_s+ +Alias D_s-1059 D_s- +ChargeConj D_s+1059 D_s-1059 + +Alias D_s+1060 D_s+ +Alias D_s-1060 D_s- +ChargeConj D_s+1060 D_s-1060 + +Alias D_s+1061 D_s+ +Alias D_s-1061 D_s- +ChargeConj D_s+1061 D_s-1061 + +Alias D_s+1062 D_s+ +Alias D_s-1062 D_s- +ChargeConj D_s+1062 D_s-1062 + +Alias D_s+1063 D_s+ +Alias D_s-1063 D_s- +ChargeConj D_s+1063 D_s-1063 + +Alias D_s+1064 D_s+ +Alias D_s-1064 D_s- +ChargeConj D_s+1064 D_s-1064 + +Alias D_s+1065 D_s+ +Alias D_s-1065 D_s- +ChargeConj D_s+1065 D_s-1065 + +Alias D_s+1066 D_s+ +Alias D_s-1066 D_s- +ChargeConj D_s+1066 D_s-1066 + +Alias D_s+1067 D_s+ +Alias D_s-1067 D_s- +ChargeConj D_s+1067 D_s-1067 + +Alias D_s+1068 D_s+ +Alias D_s-1068 D_s- +ChargeConj D_s+1068 D_s-1068 + +Alias D_s+1069 D_s+ +Alias D_s-1069 D_s- +ChargeConj D_s+1069 D_s-1069 + +Alias D_s+1070 D_s+ +Alias D_s-1070 D_s- +ChargeConj D_s+1070 D_s-1070 + +Alias D_s+1071 D_s+ +Alias D_s-1071 D_s- +ChargeConj D_s+1071 D_s-1071 + +Alias D_s+1072 D_s+ +Alias D_s-1072 D_s- +ChargeConj D_s+1072 D_s-1072 + +Alias D_s+1073 D_s+ +Alias D_s-1073 D_s- +ChargeConj D_s+1073 D_s-1073 + +Alias D_s+1074 D_s+ +Alias D_s-1074 D_s- +ChargeConj D_s+1074 D_s-1074 + +Alias D_s+1075 D_s+ +Alias D_s-1075 D_s- +ChargeConj D_s+1075 D_s-1075 + +Alias D_s+1076 D_s+ +Alias D_s-1076 D_s- +ChargeConj D_s+1076 D_s-1076 + +Alias D_s+1077 D_s+ +Alias D_s-1077 D_s- +ChargeConj D_s+1077 D_s-1077 + +Alias D_s+1078 D_s+ +Alias D_s-1078 D_s- +ChargeConj D_s+1078 D_s-1078 + +Alias D_s+1079 D_s+ +Alias D_s-1079 D_s- +ChargeConj D_s+1079 D_s-1079 + +Alias D_s+1080 D_s+ +Alias D_s-1080 D_s- +ChargeConj D_s+1080 D_s-1080 + +Alias D_s+1081 D_s+ +Alias D_s-1081 D_s- +ChargeConj D_s+1081 D_s-1081 + +Alias D_s+1082 D_s+ +Alias D_s-1082 D_s- +ChargeConj D_s+1082 D_s-1082 + +Alias D_s+1083 D_s+ +Alias D_s-1083 D_s- +ChargeConj D_s+1083 D_s-1083 + +Alias D_s+1084 D_s+ +Alias D_s-1084 D_s- +ChargeConj D_s+1084 D_s-1084 + +Alias D_s+1085 D_s+ +Alias D_s-1085 D_s- +ChargeConj D_s+1085 D_s-1085 + +Alias D_s+1086 D_s+ +Alias D_s-1086 D_s- +ChargeConj D_s+1086 D_s-1086 + +Alias D_s+1087 D_s+ +Alias D_s-1087 D_s- +ChargeConj D_s+1087 D_s-1087 + +Alias D_s+1088 D_s+ +Alias D_s-1088 D_s- +ChargeConj D_s+1088 D_s-1088 + +Alias D_s+1089 D_s+ +Alias D_s-1089 D_s- +ChargeConj D_s+1089 D_s-1089 + +Alias D_s+1090 D_s+ +Alias D_s-1090 D_s- +ChargeConj D_s+1090 D_s-1090 + +Alias D_s+1091 D_s+ +Alias D_s-1091 D_s- +ChargeConj D_s+1091 D_s-1091 + +Alias D_s+1092 D_s+ +Alias D_s-1092 D_s- +ChargeConj D_s+1092 D_s-1092 + +Alias D_s+1093 D_s+ +Alias D_s-1093 D_s- +ChargeConj D_s+1093 D_s-1093 + +Alias D_s+1094 D_s+ +Alias D_s-1094 D_s- +ChargeConj D_s+1094 D_s-1094 + +Alias D_s+1095 D_s+ +Alias D_s-1095 D_s- +ChargeConj D_s+1095 D_s-1095 + +Alias D_s+1096 D_s+ +Alias D_s-1096 D_s- +ChargeConj D_s+1096 D_s-1096 + +Alias D_s+1097 D_s+ +Alias D_s-1097 D_s- +ChargeConj D_s+1097 D_s-1097 + +Alias D_s+1098 D_s+ +Alias D_s-1098 D_s- +ChargeConj D_s+1098 D_s-1098 + +Alias D_s+1099 D_s+ +Alias D_s-1099 D_s- +ChargeConj D_s+1099 D_s-1099 + +####################################################################################### +# Specific Ds Leptonic and Rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Alias D_s+2000 D_s+ +Alias D_s-2000 D_s- +ChargeConj D_s+2000 D_s-2000 + +Alias D_s+2001 D_s+ +Alias D_s-2001 D_s- +ChargeConj D_s+2001 D_s-2001 + +Alias D_s+2002 D_s+ +Alias D_s-2002 D_s- +ChargeConj D_s+2002 D_s-2002 + +Alias D_s+2003 D_s+ +Alias D_s-2003 D_s- +ChargeConj D_s+2003 D_s-2003 + +Alias D_s+2004 D_s+ +Alias D_s-2004 D_s- +ChargeConj D_s+2004 D_s-2004 + +Alias D_s+2005 D_s+ +Alias D_s-2005 D_s- +ChargeConj D_s+2005 D_s-2005 + +Alias D_s+2006 D_s+ +Alias D_s-2006 D_s- +ChargeConj D_s+2006 D_s-2006 + +Alias D_s+2007 D_s+ +Alias D_s-2007 D_s- +ChargeConj D_s+2007 D_s-2007 + +Alias D_s+2008 D_s+ +Alias D_s-2008 D_s- +ChargeConj D_s+2008 D_s-2008 + +Alias D_s+2009 D_s+ +Alias D_s-2009 D_s- +ChargeConj D_s+2009 D_s-2009 + +Alias D_s+2010 D_s+ +Alias D_s-2010 D_s- +ChargeConj D_s+2010 D_s-2010 + +Alias D_s+2011 D_s+ +Alias D_s-2011 D_s- +ChargeConj D_s+2011 D_s-2011 + +Alias D_s+2012 D_s+ +Alias D_s-2012 D_s- +ChargeConj D_s+2012 D_s-2012 + +Alias D_s+2013 D_s+ +Alias D_s-2013 D_s- +ChargeConj D_s+2013 D_s-2013 + +Alias D_s+2014 D_s+ +Alias D_s-2014 D_s- +ChargeConj D_s+2014 D_s-2014 + +Alias D_s+2015 D_s+ +Alias D_s-2015 D_s- +ChargeConj D_s+2015 D_s-2015 + +Alias D_s+2016 D_s+ +Alias D_s-2016 D_s- +ChargeConj D_s+2016 D_s-2016 + +Alias D_s+2017 D_s+ +Alias D_s-2017 D_s- +ChargeConj D_s+2017 D_s-2017 + +Alias D_s+2018 D_s+ +Alias D_s-2018 D_s- +ChargeConj D_s+2018 D_s-2018 + +Alias D_s+2019 D_s+ +Alias D_s-2019 D_s- +ChargeConj D_s+2019 D_s-2019 + +Alias D_s+2020 D_s+ +Alias D_s-2020 D_s- +ChargeConj D_s+2020 D_s-2020 + +Alias D_s+2021 D_s+ +Alias D_s-2021 D_s- +ChargeConj D_s+2021 D_s-2021 + +Alias D_s+2022 D_s+ +Alias D_s-2022 D_s- +ChargeConj D_s+2022 D_s-2022 + +Alias D_s+2023 D_s+ +Alias D_s-2023 D_s- +ChargeConj D_s+2023 D_s-2023 + +Alias D_s+2024 D_s+ +Alias D_s-2024 D_s- +ChargeConj D_s+2024 D_s-2024 + +Alias D_s+2025 D_s+ +Alias D_s-2025 D_s- +ChargeConj D_s+2025 D_s-2025 + +Alias D_s+2026 D_s+ +Alias D_s-2026 D_s- +ChargeConj D_s+2026 D_s-2026 + +Alias D_s+2027 D_s+ +Alias D_s-2027 D_s- +ChargeConj D_s+2027 D_s-2027 + +Alias D_s+2028 D_s+ +Alias D_s-2028 D_s- +ChargeConj D_s+2028 D_s-2028 + +#Alias D_s+2029 D_s+ +#Alias D_s-2029 D_s- +#ChargeConj D_s+2029 D_s-2029 + + +####################################################################################### +# Specific D0 Hadronic decays (Preset decays 3000 - 3999) +####################################################################################### + +####################################################################################### +# Specific D0 SemiLeptonic decays (Preset decays 4000 - 4999) +####################################################################################### + +####################################################################################### +# Specific D0 Rare decays (Preset decays 5000 - 5999) +####################################################################################### + +####################################################################################### +# Specific D+ Hadronic decays (Preset decays 6000 - 6999) +####################################################################################### + +####################################################################################### +# Specific D+ SemiLeptonic decays (Preset decays 7000 - 7999) +####################################################################################### + +####################################################################################### +# Specific D+ Leptonic and Rare decays (Preset decays 8000 - 8999) +####################################################################################### + + +####################################################################################### +# Combinations or special decays (Preset decays 9000 - 9999) +####################################################################################### + +Alias D_s+9000 D_s+ +Alias D_s-9000 D_s- +ChargeConj D_s+9000 D_s-9000 + +Alias D_s+9001 D_s+ +Alias D_s-9001 D_s- +ChargeConj D_s+9001 D_s-9001 + +Alias D_s+9002 D_s+ +Alias D_s-9002 D_s- +ChargeConj D_s+9002 D_s-9002 + +Alias D_s+9003 D_s+ +Alias D_s-9003 D_s- +ChargeConj D_s+9003 D_s-9003 + +Alias D_s+9004 D_s+ +Alias D_s-9004 D_s- +ChargeConj D_s+9004 D_s-9004 + +Alias D_s+9005 D_s+ +Alias D_s-9005 D_s- +ChargeConj D_s+9005 D_s-9005 + +Alias D_s+9006 D_s+ +Alias D_s-9006 D_s- +ChargeConj D_s+9006 D_s-9006 + +Alias D_s+9007 D_s+ +Alias D_s-9007 D_s- +ChargeConj D_s+9007 D_s-9007 + +Alias D_s+9008 D_s+ +Alias D_s-9008 D_s- +ChargeConj D_s+9008 D_s-9008 + +Alias D_s+9009 D_s+ +Alias D_s-9009 D_s- +ChargeConj D_s+9009 D_s-9009 + +Alias D_s+9010 D_s+ +Alias D_s-9010 D_s- +ChargeConj D_s+9010 D_s-9010 + +Alias D_s+9011 D_s+ +Alias D_s-9011 D_s- +ChargeConj D_s+9011 D_s-9011 + +Alias D_s+9012 D_s+ +Alias D_s-9012 D_s- +ChargeConj D_s+9012 D_s-9012 + +Alias D_s+9013 D_s+ +Alias D_s-9013 D_s- +ChargeConj D_s+9013 D_s-9013 + + +####################################################################################### + +Alias D+9100 D+ +Alias D-9100 D- +ChargeConj D+9100 D-9100 + +Alias D+9101 D+ +Alias D-9101 D- +ChargeConj D+9101 D-9101 + +Alias D+9102 D+ +Alias D-9102 D- +ChargeConj D+9102 D-9102 + +Alias D+9103 D+ +Alias D-9103 D- +ChargeConj D+9103 D-9103 + +Alias D+9104 D+ +Alias D-9104 D- +ChargeConj D+9104 D-9104 + +Alias D+9105 D+ +Alias D-9105 D- +ChargeConj D+9105 D-9105 + +Alias D+9106 D+ +Alias D-9106 D- +ChargeConj D+9106 D-9106 + +Alias D+9107 D+ +Alias D-9107 D- +ChargeConj D+9107 D-9107 + +Alias D+9108 D+ +Alias D-9108 D- +ChargeConj D+9108 D-9108 + +Alias D+9109 D+ +Alias D-9109 D- +ChargeConj D+9109 D-9109 + +Alias D+9110 D+ +Alias D-9110 D- +ChargeConj D+9110 D-9110 + + +####################################################################################### + +Alias D0_9200 D0 +Alias anti-D0_9200 anti-D0 +ChargeConj D0_9200 anti-D0_9200 + +Alias D0_9201 D0 +Alias anti-D0_9201 anti-D0 +ChargeConj D0_9201 anti-D0_9201 + +Alias D0_9202 D0 +Alias anti-D0_9202 anti-D0 +ChargeConj D0_9202 anti-D0_9202 + +Alias D0_9203 D0 +Alias anti-D0_9203 anti-D0 +ChargeConj D0_9203 anti-D0_9203 + +Alias D0_9204 D0 +Alias anti-D0_9204 anti-D0 +ChargeConj D0_9204 anti-D0_9204 + +Alias D0_9205 D0 +Alias anti-D0_9205 anti-D0 +ChargeConj D0_9205 anti-D0_9205 + +Alias D0_9206 D0 +Alias anti-D0_9206 anti-D0 +ChargeConj D0_9206 anti-D0_9206 + +Alias D0_9207 D0 +Alias anti-D0_9207 anti-D0 +ChargeConj D0_9207 anti-D0_9207 + +Alias D0_9208 D0 +Alias anti-D0_9208 anti-D0 +ChargeConj D0_9208 anti-D0_9208 + +Alias D0_9209 D0 +Alias anti-D0_9209 anti-D0 +ChargeConj D0_9209 anti-D0_9209 + +Alias D0_9210 D0 +Alias anti-D0_9210 anti-D0 +ChargeConj D0_9210 anti-D0_9210 + + + + + + +####################################################################################### + +# Aliases for special tau decays here. +# tau 1 prong decays. other1 is all 1prongs but enunu, mununu, pinu +Alias tau-e tau- +Alias tau-mu tau- +Alias tau-pi tau- +Alias tau-rho tau- +Alias tau-other1pr tau- +Alias tau-all1pr tau- +Alias tau-a1 tau- +Alias tau-a1-1pr tau- +Alias tau-a1-3pr tau- +Alias tau-K tau- +Alias tau-K* tau- +Alias tau-K*-K0ppp tau- +Alias tau-K*-K000p tau- +Alias tau-K*-Lp tau- +Alias tau-K*-Kp0 tau- +Alias tau-K*-1pr tau- +Alias tau-KKp tau- +Alias tau-Kpp tau- +Alias tau-ppp0 tau- +Alias tau-p000 tau- +Alias tau-ppppp tau- +Alias tau-ppp00 tau- +Alias tau-p0000 tau- +Alias tau-ppppp0 tau- +Alias tau-ppp000 tau- +Alias tau-p00000 tau- +Alias tau-multiprong tau- + + +Alias tau+e tau+ +Alias tau+mu tau+ +Alias tau+pi tau+ +Alias tau+rho tau+ +Alias tau+other1pr tau+ +Alias tau+all1pr tau+ +Alias tau+a1 tau+ +Alias tau+a1+1pr tau+ +Alias tau+a1+3pr tau+ +Alias tau+K tau+ +Alias tau+K* tau+ +Alias tau+K*+K0ppp tau+ +Alias tau+K*+K000p tau+ +Alias tau+K*+Lp tau+ +Alias tau+K*+Kp0 tau+ +Alias tau+K*+1pr tau+ +Alias tau+KKp tau+ +Alias tau+Kpp tau+ +Alias tau+ppp0 tau+ +Alias tau+p000 tau+ +Alias tau+ppppp tau+ +Alias tau+ppp00 tau+ +Alias tau+p0000 tau+ +Alias tau+ppppp0 tau+ +Alias tau+ppp000 tau+ +Alias tau+p00000 tau+ +Alias tau+multiprong tau+ + +ChargeConj tau-e tau+e +ChargeConj tau-mu tau+mu +ChargeConj tau-pi tau+pi +ChargeConj tau-rho tau+rho +ChargeConj tau-other1pr tau+other1pr +ChargeConj tau-all1pr tau+all1pr +ChargeConj tau-a1 tau+a1 +ChargeConj tau-a1-1pr tau+a1+1pr +ChargeConj tau-a1-3pr tau+a1+3pr +ChargeConj tau-K tau+K +ChargeConj tau-K* tau+K* +ChargeConj tau-K*-K0ppp tau+K*+K0ppp +ChargeConj tau-K*-K000p tau+K*+K000p +ChargeConj tau-K*-Lp tau+K*+Lp +ChargeConj tau-K*-Kp0 tau+K*+Kp0 +ChargeConj tau-K*-1pr tau+K*+1pr +ChargeConj tau-KKp tau+KKp +ChargeConj tau-Kpp tau+Kpp +ChargeConj tau-ppp0 tau+ppp0 +ChargeConj tau-p000 tau+p000 +ChargeConj tau-ppppp tau+ppppp +ChargeConj tau-ppp00 tau+ppp00 +ChargeConj tau-p0000 tau+p0000 +ChargeConj tau-ppppp0 tau+ppppp0 +ChargeConj tau-ppp000 tau+ppp000 +ChargeConj tau-p00000 tau+p00000 +ChargeConj tau-multiprong tau+multiprong + + +####################################################################################### + +# Define light meson aliases here + + +# Forced K*0 -> K+ pi- +Alias K*0-Kp K*0 +Alias anti-K*0-Kp anti-K*0 +ChargeConj K*0-Kp anti-K*0-Kp + + +# Forced K*0 -> K0L pi0 +Alias K*0-L0 K*0 +Alias anti-K*0-L0 anti-K*0 +ChargeConj K*0-L0 anti-K*0-L0 + +# Forced K*0 -> K0S pi0, K0S -> pi0pi0 +Alias K*0-S000 K*0 +Alias anti-K*0-S000 anti-K*0 +ChargeConj K*0-S000 anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Alias K*0-Spp0 K*0 +Alias anti-K*0-Spp0 anti-K*0 +ChargeConj K*0-Spp0 anti-K*0-Spp0 + +# K*0 -> all neutrals +Alias K*0-neu K*0 +Alias anti-K*0-neu anti-K*0 +ChargeConj K*0-neu anti-K*0-neu + +# K*0 -> modes with charged tracks +Alias K*0-ch K*0 +Alias anti-K*0-ch anti-K*0 +ChargeConj K*0-ch anti-K*0-ch + +# K*+ -> K0S pi+, K0S->pi+pi- +Alias K*+K0ppp K*+ +Alias K*-K0ppp K*- +ChargeConj K*+K0ppp K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Alias K*+K000p K*+ +Alias K*-K000p K*- +ChargeConj K*+K000p K*-K000p + +# K*+ -> K0L pi+ +Alias K*+Lp K*+ +Alias K*-Lp K*- +ChargeConj K*+Lp K*-Lp + +# K*+ -> K+ pi0 +Alias K*+Kp0 K*+ +Alias K*-Kp0 K*- +ChargeConj K*+Kp0 K*-Kp0 + +# K*+ -> 1pr +Alias K*+1pr K*+ +Alias K*-1pr K*- +ChargeConj K*+1pr K*-1pr + +# K*+ -> multi prongs +Alias K*+multiprong K*+ +Alias K*-multiprong K*- +ChargeConj K*+multiprong K*-multiprong + +Alias K0-pp K_S0 +Alias K0-00 K_S0 +Alias K0-neu K0 +Alias anti-K0-neu anti-K0 +ChargeConj K0-neu anti-K0-neu + +############## +# phi + +Alias phiKK phi +Alias phipp0 phi +Alias phiLS phi +Alias phiLSpp phi +Alias phiLS00 phi +Alias phineu phi +Alias phi-ch phi + +############## +# eta + +Alias etagg eta +Alias etapp0 eta +Alias eta000 eta + +# eta->neutrals only +Alias eta-neu eta + +# eta -> modes with charged tracks +Alias eta-ch eta + +############## +# eta' + +Alias eta'ppetagg eta' +Alias eta'ppetapp0 eta' +Alias eta'00etagg eta' +Alias eta'00etapp0 eta' + +Alias eta'rg eta' + +Alias eta'neu eta' +Alias eta'-ch eta' + +############## +# f0 + +Alias f_0pp f_0 +Alias f_0KK f_0 + +############## +# omega + +Alias omega-neu omega +Alias omega-ch omega + +############## +# a_1 + +Alias a_1-1pr a_1- +Alias a_1+1pr a_1+ +ChargeConj a_1-1pr a_1+1pr + +Alias a_1-3pr a_1- +Alias a_1+3pr a_1+ +ChargeConj a_1-3pr a_1+3pr + + +####################################################################################### +# +# Decays start here +# +####################################################################################### + +####################################################################################### +# vphoton, ie define various production mechanism for MC production + +######################################## +# Ds(*) Ds(*) + +Decay vphoton001 +1.000 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton002 +1.000 psi(4160)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton003 +1.000 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton004 +1.000 psi(4415)DsDs gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton005 +1.000 psi(4415)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton006 +1.000 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton007 +1.000 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton008 +1.000 psi(4415)Ds*Ds*32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 + +Decay vphoton009 +1.000 psi(4160)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton010 +1.000 psi(4415)DsDspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton011 +1.000 psi(4415)Ds*Dspi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton012 +1.000 psi(4415)Ds*Ds*pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi0 pi0 + +Decay vphoton013 +1.000 psi(4415)DsDspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton014 +1.000 psi(4415)Ds*Dspi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton015 +1.000 psi(4415)Ds*Ds*pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# Ds(*) Ds(*) pi+ pi- + +Decay vphoton016 +1.000 psi(4415)DsDspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton017 +1.000 psi(4415)Ds*Dspi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton018 +1.000 psi(4415)Ds*Ds*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay vphoton019 +1.000 psi(4415)DsD0K- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton020 +1.000 psi(4415)DsD-K0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton021 +1.000 psi(4415)DsD-K0L gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton022 +1.000 psi(4415)DsD-K0-pp gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton023 +1.000 psi(4415)DsD-K0-00 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton024 +1.000 psi(4415)DsD-K0-neu gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +# and the preset mixtures for production + +Decay vphoton025 +0.500 psi(4415)Ds*Ds*10 gamma VECTORISR 0.999999 0.999999; +0.500 psi(4415)Ds*Ds*12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton026 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton027 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) + +Decay vphoton027 +1.000 psi(3770)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton028 +1.000 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton029 +1.000 psi(4040)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton030 +1.000 psi(4040)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton031 +1.000 psi(4040)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton032 +1.000 psi(4040)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton033 +1.000 psi(4160)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton034 +1.000 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton035 +1.000 psi(4160)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton036 +1.000 psi(4160)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton037 +1.000 psi(4160)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton038 +1.000 psi(4415)D0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton039 +1.000 psi(4415)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton040 +1.000 psi(4415)D*0D*010 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton041 +1.000 psi(4415)D*0D*012 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton042 +1.000 psi(4415)D*0D*032 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi0 Nonresonant + +Decay vphoton043 +1.000 psi(4040)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton044 +1.000 psi(4040)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton045 +1.000 psi(4160)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton046 +1.000 psi(4160)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton047 +1.000 psi(4160)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton048 +1.000 psi(4415)D0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton049 +1.000 psi(4415)D*0D0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton050 +1.000 psi(4415)D*0D*0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D0(*) D0(*) pi0 pi0 Nonresonant + +Decay vphoton051 +1.000 psi(4040)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton052 +1.000 psi(4040)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton053 +1.000 psi(4160)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton054 +1.000 psi(4160)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton055 +1.000 psi(4160)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton056 +1.000 psi(4415)D0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton057 +1.000 psi(4415)D*0D0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton058 +1.000 psi(4415)D*0D*0pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +######################################## +# D0(*) D0(*) pi+ pi- Nonresonant + +Decay vphoton059 +1.000 psi(4040)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton060 +1.000 psi(4040)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton061 +1.000 psi(4160)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton062 +1.000 psi(4160)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton063 +1.000 psi(4415)D0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton064 +1.000 psi(4415)D*0D0pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton065 +1.000 psi(4415)D*0D*pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D-(*) + +Decay vphoton066 +1.000 psi(3770)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton067 +1.000 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton068 +1.000 psi(4040)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton069 +1.000 psi(4040)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton070 +1.000 psi(4040)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton071 +1.000 psi(4040)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton072 +1.000 psi(4160)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton073 +1.000 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton074 +1.000 psi(4160)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton075 +1.000 psi(4160)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton076 +1.000 psi(4160)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton077 +1.000 psi(4415)D+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton078 +1.000 psi(4415)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton079 +1.000 psi(4415)D*+D*-10 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton080 +1.000 psi(4415)D*+D*-12 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton081 +1.000 psi(4415)D*+D*-32 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 nonresonant + +Decay vphoton082 +1.000 psi(4040)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton083 +1.000 psi(4040)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton084 +1.000 psi(4160)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton085 +1.000 psi(4160)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton086 +1.000 psi(4160)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton087 +1.000 psi(4415)D+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton088 +1.000 psi(4415)D*+D-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton089 +1.000 psi(4415)D*+D*-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +######################################## +# D+(*) D-(*) pi0 pi0 nonresonant + +Decay vphoton090 +1.000 psi(4040)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton091 +1.000 psi(4040)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton092 +1.000 psi(4160)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton093 +1.000 psi(4160)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton094 +1.000 psi(4415)D+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton095 +1.000 psi(4415)D*+D-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton096 +1.000 psi(4415)D*+D*-pi0pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D-(*) pi+ pi- nonresonant + +Decay vphoton097 +1.000 psi(4040)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton098 +1.000 psi(4040)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton099 +1.000 psi(4160)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton100 +1.000 psi(4160)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton101 +1.000 psi(4415)D+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton102 +1.000 psi(4415)D*+D-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton103 +1.000 psi(4415)D*+D*-pi+pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +######################################## +# D+(*) D0(*) pi- nonresonant + +Decay vphoton104 +1.000 psi(4040)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton105 +1.000 psi(4040)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton106 +1.000 psi(4160)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton107 +1.000 psi(4160)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton108 +1.000 psi(4160)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton109 +1.000 psi(4160)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton110 +1.000 psi(4415)D+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton111 +1.000 psi(4415)D*+D0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton112 +1.000 psi(4415)D+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton113 +1.000 psi(4415)D*+D*0pi- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + + +######################################## +# D+(*) D0(*) pi- pi0 nonresonant + +Decay vphoton114 +1.000 psi(4040)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton115 +1.000 psi(4040)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton116 +1.000 psi(4040)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton117 +1.000 psi(4160)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton118 +1.000 psi(4160)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton119 +1.000 psi(4160)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + + +Decay vphoton120 +1.000 psi(4415)D+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton121 +1.000 psi(4415)D*+D0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton122 +1.000 psi(4415)D*0D+pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +Decay vphoton123 +1.000 psi(4415)D*+D*0pi-pi0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton124 +0.250 psi(4040)DsDs gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)Ds*Ds gamma VECTORISR 0.999999 0.999999; +Enddecay + +################################ quark jets ####################### +# d +Decay vphoton125 +1.0 JSCONT 1; +Enddecay + +# u +Decay vphoton126 +1.0 JSCONT 2; +Enddecay + +# s +Decay vphoton127 +1.0 JSCONT 3; +Enddecay + +# c +Decay vphoton128 +1.0 JSCONT 4; +Enddecay + + +# ud +Decay vphoton129 +1.0 JSCONT 1; +4.0 JSCONT 2; +Enddecay + +# uds +Decay vphoton130 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay + +# uds +Decay vphoton131 +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +4.0 JSCONT 4; +Enddecay + +#combination for MC run +Decay vphoton132 +0.250 psi(4040)D0D0 gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*0D0 gamma VECTORISR 0.999999 0.999999; +Enddecay + +#combination for MC run +Decay vphoton133 +0.250 psi(4040)D+D- gamma VECTORISR 0.999999 0.999999; +0.750 psi(4160)D*+D- gamma VECTORISR 0.999999 0.999999; +Enddecay + + + +####################################################################################### +# +# ISR Psi(xxxx), Psi(xxxx) -> Ds Ds Pure P-wave +# +####################################################################################### +# +# Partial wave amplitudes for V -> S S in helicity formalism +# +# Only 1 helicity amplitude because helicity of a scalar has to be 0 +# +Define VSS_1_0 1.0 +Define argVSS_1_0 0. +####################################################################################### + +Decay psi(4415)Ds*Ds*32 +0.500 D_s*+1 D_s*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*12 +0.500 D_s*+1 D_s*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds*10 +0.500 D_s*+1 D_s*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D_s*+2 D_s*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(4160)Ds*Ds +0.250 D_s*+1 D_s-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-1 D_s+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*+2 D_s-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D_s*-2 D_s+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + + +Decay psi(4040)DsDs +0.500 D_s+1 D_s-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D_s+2 D_s-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +####################################################################################### + +Decay psi(3770)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0 +0.500 D01 anti-D02 HELAMP VSS_1_0 argVSS_1_0; +0.500 D02 anti-D01 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*0D0 +0.250 D*01 anti-D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*01 D02 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*02 anti-D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 anti-D*02 D01 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*0D*010 +0.500 D*01 anti-D*02 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*0D*012 +0.500 D*01 anti-D*02 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*0D*032 +0.500 D*01 anti-D*02 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*02 anti-D*01 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(3770)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + + +####################################################################################### + +Decay psi(4040)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4040)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4040)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4040)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4160)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4160)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4160)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4160)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + +####################################################################################### + +Decay psi(4415)D+D- +0.500 D+1 D-2 HELAMP VSS_1_0 argVSS_1_0; +0.500 D+2 D-1 HELAMP VSS_1_0 argVSS_1_0; +Enddecay + +Decay psi(4415)D*+D- +0.250 D*+1 D-2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-1 D+2 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*+2 D-1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +0.250 D*-2 D+1 HELAMP VVS_1_0 argVVS_1_0 VVS_0_0 argVVS_0_0 VVS_-1_0 argVVS_-1_0; +Enddecay + +Decay psi(4415)D*+D*-10 +0.500 D*+1 D*-2 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV10_1_1 argVVV10_1_1 VVV10_1_0 argVVV10_1_0 + VVV10_0_1 argVVV10_0_1 VVV10_0_0 argVVV10_0_0 VVV10_0_-1 argVVV10_0_-1 + VVV10_-1_0 argVVV10_-1_0 VVV10_-1_-1 argVVV10_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-12 +0.500 D*+1 D*-2 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV12_1_1 argVVV12_1_1 VVV12_1_0 argVVV12_1_0 + VVV12_0_1 argVVV12_0_1 VVV12_0_0 argVVV12_0_0 VVV12_0_-1 argVVV12_0_-1 + VVV12_-1_0 argVVV12_-1_0 VVV12_-1_-1 argVVV12_-1_-1; +Enddecay + +Decay psi(4415)D*+D*-32 +0.500 D*+1 D*-2 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; + +0.500 D*+2 D*-1 HELAMP VVV32_1_1 argVVV32_1_1 VVV32_1_0 argVVV32_1_0 + VVV32_0_1 argVVV32_0_1 VVV32_0_0 argVVV32_0_0 VVV32_0_-1 argVVV32_0_-1 + VVV32_-1_0 argVVV32_-1_0 VVV32_-1_-1 argVVV32_-1_-1; +Enddecay + + + +############## +# Psi(xxxx) to Nonresonant DDpi0 + +Decay psi(4040)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D0D0pi0 +0.500 D01 anti-D02 pi0 PHSP; +0.500 D02 anti-D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4160)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + + +Decay psi(4415)D+D-pi0 +0.500 D+1 D-2 pi0 PHSP; +0.500 D+2 D-1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0 +0.250 D*+1 D-2 pi0 PHSP; +0.250 D*-1 D+2 pi0 PHSP; +0.250 D*+2 D-1 pi0 PHSP; +0.250 D*-2 D+1 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0 +0.500 D*+1 D*-2 pi0 PHSP; +0.500 D*+2 D*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0 +0.500 D_s+1 D_s-2 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0 +0.250 D_s*+1 D_s-2 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0 +0.500 D_s*+1 D_s*-2 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 PHSP; +Enddecay + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi- + +Decay psi(4040)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4040)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4160)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4160)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi- +0.5 D+1 anti-D01 pi- PHSP; +0.5 D-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D0pi- +0.5 D*+1 anti-D01 pi- PHSP; +0.5 D*-1 D01 pi+ PHSP; +Enddecay + +Decay psi(4415)D+D*0pi- +0.5 D+1 anti-D*01 pi- PHSP; +0.5 D-1 D*01 pi+ PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi- +0.5 D*+1 anti-D*01 pi- PHSP; +0.5 D*-1 D*01 pi+ PHSP; +Enddecay + +####################################################################################### + + +############## +# Psi(xxxx) to Nonresonant DDpi0pi0 + +Decay psi(4040)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 pi0 PHSP; +0.250 anti-D*01 D02 pi0 pi0 PHSP; +0.250 D*02 anti-D01 pi0 pi0 PHSP; +0.250 anti-D*02 D01 pi0 pi0 PHSP; +Enddecay + + +####################################################################################### + +Decay psi(4415)D0D0pi0pi0 +0.500 D01 anti-D02 pi0 pi0 PHSP; +0.500 D02 anti-D01 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D0pi0pi0 +0.250 D*01 anti-D02 pi0 PHSP; +0.250 anti-D*01 D02 pi0 PHSP; +0.250 D*02 anti-D01 pi0 PHSP; +0.250 anti-D*02 D01 pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D*0pi0pi0 +0.500 D*01 anti-D*02 pi0 PHSP; +0.500 D*02 anti-D*01 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi0pi0 +0.500 D+1 D-2 pi0 pi0 PHSP; +0.500 D+2 D-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D-pi0pi0 +0.250 D*+1 D-2 pi0 pi0 PHSP; +0.250 D*-1 D+2 pi0 pi0 PHSP; +0.250 D*+2 D-1 pi0 pi0 PHSP; +0.250 D*-2 D+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi0pi0 +0.500 D*+1 D*-2 pi0 pi0 PHSP; +0.500 D*+2 D*-1 pi0 pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi0pi0 +0.500 D_s+1 D_s-2 pi0 pi0 PHSP; +0.500 D_s+2 D_s-1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi0pi0 +0.250 D_s*+1 D_s-2 pi0 pi0 PHSP; +0.250 D_s*-1 D_s+2 pi0 pi0 PHSP; +0.250 D_s*+2 D_s-1 pi0 pi0 PHSP; +0.250 D_s*-2 D_s+1 pi0 pi0 PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi0pi0 +0.500 D_s*+1 D_s*-2 pi0 pi0 PHSP; +0.500 D_s*+2 D_s*-1 pi0 pi0 PHSP; +Enddecay + + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi-pi0 + +Decay psi(4040)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4040)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4160)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D0pi-pi0 +0.5 D+1 anti-D01 pi- pi0 PHSP; +0.5 D-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D0pi-pi0 +0.5 D*+1 anti-D01 pi- pi0 PHSP; +0.5 D*-1 D01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*0D+pi-pi0 +0.5 D+1 anti-D*01 pi- pi0 PHSP; +0.5 D-1 D*01 pi+ pi0 PHSP; +Enddecay + +Decay psi(4415)D*+D*0pi-pi0 +0.5 D*+1 anti-D*01 pi- pi0 PHSP; +0.5 D*-1 D*01 pi+ pi0 PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DDpi+pi- + +Decay psi(4040)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D0D0pi+pi- +0.500 D01 anti-D02 pi+ pi- PHSP; +0.500 D02 anti-D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D0pi+pi- +0.250 D*01 anti-D02 pi+ pi- PHSP; +0.250 D*02 anti-D01 pi+ pi- PHSP; +0.250 anti-D*01 D02 pi+ pi- PHSP; +0.250 anti-D*02 D01 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*0D*pi+pi- +0.500 D*01 anti-D*02 pi+ pi- PHSP; +0.500 D*02 anti-D*01 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4040)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4040)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4160)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4160)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)D+D-pi+pi- +0.500 D+1 D-2 pi+ pi- PHSP; +0.500 D+2 D-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D-pi+pi- +0.250 D*+1 D-2 pi+ pi- PHSP; +0.250 D*+2 D-1 pi+ pi- PHSP; +0.250 D*-1 D+2 pi+ pi- PHSP; +0.250 D*-2 D+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)D*+D*-pi+pi- +0.500 D*+1 D*-2 pi+ pi- PHSP; +0.500 D*+2 D*-1 pi+ pi- PHSP; +Enddecay + +####################################################################################### + +Decay psi(4415)DsDspi+pi- +0.500 D_s+1 D_s-2 pi+ pi- PHSP; +0.500 D_s+2 D_s-1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Dspi+pi- +0.250 D_s*+1 D_s-2 pi+ pi- PHSP; +0.250 D_s*+2 D_s-1 pi+ pi- PHSP; +0.250 D_s*-1 D_s+2 pi+ pi- PHSP; +0.250 D_s*-2 D_s+1 pi+ pi- PHSP; +Enddecay + +Decay psi(4415)Ds*Ds*pi+pi- +0.500 D_s*+1 D_s*-2 pi+ pi- PHSP; +0.500 D_s*+2 D_s*-1 pi+ pi- PHSP; +Enddecay + + +####################################################################################### + +############## +# Psi(xxxx) to Nonresonant DsDK + +Decay psi(4415)DsD0K- +0.500 D_s+1 anti-D01 K- PHSP; +0.500 D_s-1 D01 K+ PHSP; +Enddecay + +Decay psi(4415)DsD-K0 +0.500 D_s+1 D-1 anti-K0 PHSP; +0.500 D_s-1 D+1 K0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0L +0.500 D_s+1 D-1 K_L0 PHSP; +0.500 D_s-1 D+1 K_L0 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-pp +0.500 D_s+1 D-1 K0-pp PHSP; +0.500 D_s-1 D+1 K0-pp PHSP; +Enddecay + +Decay psi(4415)DsD-K0-00 +0.500 D_s+1 D-1 K0-00 PHSP; +0.500 D_s-1 D+1 K0-00 PHSP; +Enddecay + +Decay psi(4415)DsD-K0-neu +0.500 D_s+1 D-1 K0-neu PHSP; +0.500 D_s-1 D+1 K0-neu PHSP; +Enddecay + + +####################################################################################### +# +# Generic D_s* Decays +# +####################################################################################### +# Ds Decay 1 is the hadronic singletag side of the event +# Ds Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + +Decay D_s*+1 +0.942 D_s+1 gamma VSP_PWAVE; +0.058 D_s+1 pi0 VSS; +Enddecay +CDecay D_s*-1 + +Decay D_s*+2 +0.942 D_s+2 gamma VSP_PWAVE; +0.058 D_s+2 pi0 VSS; +Enddecay +CDecay D_s*-2 + +####################################################################################### +# +# Generic D* Decays +# +####################################################################################### +# D Decay 1 is the hadronic singletag side of the event +# D Decay 2 is the cocktail, leptonic, semileptonic or hadronic doubletag side + + +Decay D*+1 +0.6830 D01 pi+ VSS; +0.3060 D+1 pi0 VSS; +0.0110 D+1 gamma VSP_PWAVE; +Enddecay +CDecay D*-1 + +Decay D*+2 +0.6830 D02 pi+ VSS; +0.3060 D+2 pi0 VSS; +0.0110 D+2 gamma VSP_PWAVE; +Enddecay +CDecay D*-2 + +Decay D*01 +0.6190 D01 pi0 VSS; +0.3810 D01 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*01 + +Decay D*02 +0.6190 D02 pi0 VSS; +0.3810 D02 gamma VSP_PWAVE; +Enddecay +CDecay anti-D*02 + +####################################################################################### +# tau 1 prong decays. other1 is all 1prongs except enunu, mununu, pinu + +Decay tau-e +1.0 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+e + +Decay tau-mu +1.0 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +CDecay tau+mu + +Decay tau-pi +1.0 pi- nu_tau PHOTOS TAUSCALARNU; +Enddecay +CDecay tau+pi + +Decay tau-rho +0.2515 rho- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+rho + +Decay tau-other1pr +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; + +# Jetset doesn't work on aliased particles :-( +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; + +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+other1pr + + +# all tau -> 1 prong modes. B(1prong) = 0.84385 let jetset renormalize +Decay tau-all1pr +0.1800 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.1751 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.1110 pi- nu_tau PHOTOS TAUSCALARNU; +0.2515 rho- nu_tau TAUVECTORNU; + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay rate to be +#100% so enter half the a_1- nu BF, or 0.0895 +0.0895 a_1-1pr nu_tau TAUVECTORNU; + +# BF(tau -> K*- nu) * BF(K*- -> 1pr) = 0.0134*0.667 = 0.0089 +0.0089 K*-1pr nu_tau TAUVECTORNU; +0.0071 K- nu_tau TAUSCALARNU; +0.0100 nu_tau pi- pi0 pi0 pi0 PHSP; +#0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; + +# BF(nu K0 pi- anti-K0) * BF(K0->neu)**2 = .0015*(.65695)**2 = 0.00065 +0.00065 nu_tau K0-neu pi- anti-K0-neu PHSP; +#0.00065 nu_tau K0-neu pi- anti-K0-neu JETSET 41; + +# BF(nu K- pi0 K0) * BF(K0->neu) = .0015*(.65695) = 0.0010 +0.0010 nu_tau K- pi0 K0-neu PHSP; +#0.0010 nu_tau K- pi0 K0-neu JETSET 41; +0.0005 nu_tau K- pi0 pi0 PHSP; +#0.0005 nu_tau K- pi0 pi0 JETSET 41; + +# BF(nu pi- pi0 anti-K0) * BF(K0->neu) = .0055*(.65695) = 0.0036 +0.0036 nu_tau pi- anti-K0-neu pi0 PHSP; +#0.0036 nu_tau pi- anti-K0-neu pi0 JETSET 41; + +# BF(nu eta pi- pi0)*BF(eta -> neu) = 0.0017*0.7142 = 0.0012 +0.0017 nu_tau eta-neu pi- pi0 PHSP; +#0.0017 nu_tau eta-neu pi- pi0 JETSET 41; +0.0013 nu_tau gamma pi- pi0 PHSP; +#0.0013 nu_tau gamma pi- pi0 JETSET 41; +0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; + +# BF( nu pi- omega pi0)*BF(omega -> neu) = 0.0039 * 0.0860 = 0.0003 +0.0003 nu_tau pi- omega-neu pi0 PHSP; +#0.0003 nu_tau pi- omega-neu pi0 JETSET 41; + +# BF( nu K- omega pi0)*BF(omega -> neu) = 0.0010 * 0.0860 = 0.0001 +0.0010 nu_tau K- omega-neu PHSP; +#0.0010 nu_tau K- omega-neu JETSET 41; + +# BF(nu K- K0)*BF(K0 -> neu) = 0.0010 * 0.65695 = 0.0007 +0.0007 nu_tau K- K0-neu PHSP; +#0.0007 nu_tau K- K0-neu JETSET 41; +Enddecay +CDecay tau+all1pr + +Decay tau-a1 +1.0 a_1- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1 + +# Tau->pi-2pi0 nu (exc K0) is .0915. Assume it is all a_1-. +# a_1-> -> ~50% to pi0 rho-. Force this a_1- decay late to be +#100% so enter half the a_1- nu BF, or 0.0895 +Decay tau-a1-1pr +1.0 a_1-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+1pr + +Decay tau-a1-3pr +1.0 a_1-3pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+a1+3pr + +Decay tau-K +1.0 K- nu_tau TAUSCALARNU; +Enddecay +CDecay tau+K + +Decay tau-K* +1.0 K*- nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K* + +Decay tau-K*-K0ppp +1.0 K*-K0ppp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K0ppp + +Decay tau-K*-K000p +1.0 K*-K000p nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+K000p + +Decay tau-K*-Lp +1.0 K*-Lp nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Lp + +Decay tau-K*-Kp0 +1.0 K*-Kp0 nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+Kp0 + +Decay tau-K*-1pr +1.0 K*-1pr nu_tau TAUVECTORNU; +Enddecay +CDecay tau+K*+1pr + +# +# The JETSET decay model doesn't work on aliases of particles :-( +# +Decay tau-KKp +1.0 nu_tau K- pi- K+ PHSP; +#1.0 nu_tau K- pi- K+ JETSET 41; +Enddecay +CDecay tau+KKp + +Decay tau-Kpp +1.0 nu_tau K- pi+ pi- PHSP; +#1.0 nu_tau K- pi+ pi- JETSET 41; +Enddecay +CDecay tau+Kpp + +Decay tau-ppp0 +1.0 nu_tau pi- pi+ pi- pi0 PHSP; +#1.0 nu_tau pi- pi+ pi- pi0 JETSET 41; +Enddecay +CDecay tau+ppp0 + +Decay tau-p000 +1.0 nu_tau pi- pi0 pi0 pi0 PHSP; +#1.0 nu_tau pi- pi0 pi0 pi0 JETSET 41; +Enddecay +CDecay tau+p000 + +Decay tau-ppppp +1.0 nu_tau pi- pi- pi- pi+ pi+ PHSP; +Enddecay +CDecay tau+ppppp + +Decay tau-ppp00 +1.0 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp00 + +Decay tau-p0000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p0000 + +Decay tau-ppppp0 +1.0 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +Enddecay +CDecay tau+ppppp0 + +Decay tau-ppp000 +1.0 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+ppp000 + +Decay tau-p00000 +1.0 nu_tau pi- pi0 pi0 pi0 pi0 pi0 PHSP; +Enddecay +CDecay tau+p00000 + +Decay tau-multiprong +# B(a1 nu) * B(a1->3 prong) = 0.1790 * 0.4920 = 0.088068 +0.088068 a_1-3pr nu_tau TAUVECTORNU; + +# B(K*- nu) * B(K*- -> multiprongs) = 0.0134 * 0.2284713 = 0.00306151542 +0.00306151542 K*- nu_tau TAUVECTORNU; + +#0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; +0.0450 nu_tau pi- pi+ pi- pi0 PHSP; + +#0.0015 nu_tau K- pi- K+ JETSET 41; +0.0015 nu_tau K- pi- K+ PHSP; + +# B(K0 antiK0 pi nu) -> multiprongs involves either 1 or two Ks ->pipi +# B(K0 antiK0 pipi) * 2 * B(K0->Ks->pipi) * B(K0 -> neutrals) = 0.0015 * 2. * 0.5 * 0.6861 * 0.65695= 0.0006761 +#0.0006761 nu_tau K0-pp pi- anti-K0-neu JETSET 41; +0.0006761 nu_tau K0-pp pi- anti-K0-neu PHSP; + +# B(K0 antiK0 pipi) * B(K0->Ks->pipi)^2 = 0.0015 * (0.5 * 0.6861)^2 = 0.000706099815 +#0.000706099815 nu_tau K0-pp pi- K0-pp JETSET 41; +0.000706099815 nu_tau K0-pp pi- K0-pp PHSP; + +# B(K- K0 pi0 nu) * B(K0->Ks->pipi) = 0.0015 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau K- pi0 K0-pp JETSET 41; +0.000514575 nu_tau K- pi0 K0-pp PHSP; + +#0.0050 nu_tau K- pi+ pi- JETSET 41; +0.0050 nu_tau K- pi+ pi- PHSP; + +# B(pi- anti-K0 pi0 nu) * B(K0->Ks->pipi) = 0.0055 * 0.5 * 0.6861 = 0.000514575 +#0.000514575 nu_tau pi- K0-pp pi0 JETSET 41; +0.000514575 nu_tau pi- K0-pp pi0 PHSP; + +# B(eta pi pi0 nu) * B(eta->modes with charged tracks) = 0.0017 * 0.2858 = 0.00048586 +#0.00048586 nu_tau eta-ch pi- pi0 JETSET 41; +0.00048586 nu_tau eta-ch pi- pi0 PHSP; + +0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; +0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; +0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; +0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; + +# B(omega pi pi0 nu) * B(omega->modes with charged tracks) = 0.0039 * 0.9140 = 0.0035646 +#0.0035646 nu_tau pi- omega-ch pi0 JETSET 41; +0.0035646 nu_tau pi- omega-ch pi0 PHSP; + +# B(K K0 nu) * B(K0->Ks->pipi) = 0.001 * 0.5 * 0.6861 = 0.00034305 +#0.00034305 nu_tau K- K0-pp JETSET 41; +0.00034305 nu_tau K- K0-pp PHSP; + +# B(omega K nu) * B(omega->modes with charged tracks) = 0.0010 * 0.9140 = 0.000914 +#0.000914 nu_tau K- omega-ch JETSET 41; +0.000914 nu_tau K- omega-ch PHSP; + +Enddecay +CDecay tau+multiprong + + +############## +# Light meson decays +############## + +############## +# Kaons: K*0 + +# K*0 -> K+ pi- +Decay K*0-Kp +1.0 K+ pi- VSS; +Enddecay +CDecay anti-K*0-Kp + +# K*0 -> K0L pi0 +Decay K*0-L0 +1.0 K_L0 pi0 VSS; +Enddecay +CDecay anti-K*0-L0 + +# K*0 -> K0S pi0, K0S -> pi0pi0 +Decay K*0-S000 +1.0 K0-00 pi0 VSS; +Enddecay +CDecay anti-K*0-S000 + +# Forced K*0 -> K0S pi0, K0S -> pi+pi- +Decay K*0-Spp0 +1.0 K0-pp pi0 VSS; +Enddecay +CDecay anti-K*0-Spp0 + +# B(K*0->neutrals)= 0.2207 . let EvtGen rescale +Decay K*0-neu +0.0522 K0-00 pi0 VSS; +0.1662 K_L0 pi0 VSS; +0.0020 K_L0 gamma VSP_PWAVE; +0.0003 K0-00 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-neu + +# B(K*0->modes with charged tracks)= 0.7793 . let EvtGen rescale +Decay K*0-ch +0.6657 K- pi+ VSS; + +#B (K0 pi0) * B(K0 -> Ks -> pipi) = 0.3323 * 0.5 * 0.6861 = 0.113995515 +0.113995515 K0-pp pi0 VSS; + +#B (K0 gamma) * B(K0 -> Ks -> pipi) = 0.0020 * 0.5 * 0.6861 = 0.0006861 +0.0006861 anti-K0 gamma VSP_PWAVE; +Enddecay +CDecay anti-K*0-ch + +############## +# Kaons: K*+ + +# K*+ -> K0S pi+, K0S->pi+pi- +Decay K*+K0ppp +1.0 K0-pp pi+ VSS; +Enddecay +CDecay K*-K0ppp + +# K*+ -> K0S pi+, K0S->pi0pi0 +Decay K*+K000p +1.0 K0-00 pi+ VSS; +Enddecay +CDecay K*-K000p + +# K*+ -> K0L pi+ +Decay K*+Lp +1.0 K_L0 pi+ VSS; +Enddecay +CDecay K*-Lp + +# K*+ -> K+ pi0 +Decay K*+Kp0 +1.0 K+ pi0 VSS; +Enddecay +CDecay K*-Kp0 + +# K*+ -> 1 prong. Let jetset renormalize +Decay K*+1pr +0.3330 K+ pi0 VSS; +0.0010 K+ gamma VSP_PWAVE; +0.3330 K_L0 pi+ VSS; + +# BF(K*+ -> Ks pi+) * BF (Ks -> pi0pi0) = 0.6660*0.5*0.3139 = .1045 +0.1045 K0-00 pi+ VSS; +Enddecay +CDecay K*-1pr + +# K*+ -> multiprong. +# BF(K*+ -> Ks pi+) * BF (Ks -> pipi) = 0.6660*0.5*0.6861 = 0.2284713 +Decay K*+multiprong +0.2284713 K0-pp pi+ VSS; +Enddecay +CDecay K*-multiprong + + + +############## +# Kaons: K0 + +Decay K0-pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay K0-00 +1.0 pi0 pi0 PHSP; +Enddecay + +Decay K0-neu +0.5000 K_L0 PHSP; +# 0.5 * BF(pi0 pi0) = .5*0.3139 +0.15695 K0-00 PHSP; +Enddecay +CDecay anti-K0-neu + +############## +# phi + +Decay phiKK +1.0 K+ K- VSS; +Enddecay + +Decay phipp0 +1.0 pi+ pi- pi0 PHSP; +Enddecay + + +Decay phiLS +1.0 K_L0 K_S0 VSS; +Enddecay + +Decay phiLSpp +1.0 K_L0 K0-pp VSS; +Enddecay + +Decay phiLS00 +1.0 K_L0 K0-00 VSS; +Enddecay + +# BF (phi->neutrals) = 0.2340 (note round-off diff). Let EvtGen renormalize +Decay phineu +# BF(Klong Ks)* BF(Ks->neu) = 0.3410*0.65695 = .2240 +0.2240 K_L0 K0-00 VSS; +# BF(eta gamma)*BF(eta->neu)=0.0121*0.7142=0.0086 +0.0086 eta-neu gamma VSP_PWAVE; +0.0013 pi0 gamma VSP_PWAVE; +Enddecay + +# BF (phi->modes with charged tracks) = 0.7660 Let EvtGen renormalize +Decay phi-ch +0.4910 K+ K- VSS; +#B(KL KS) * B(KS -> pipi) = 0.3410 * 0.5 * 0.6861 = 0.11698005 +0.11698005 K_L0 K0-pp VSS; +0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0250 pi+ pi- pi0 PHSP; +# B(eta gamma) * B(eta -> modes with charged tracks) = 0.0121 * 0.2858 = 0.00345818 +0.00345818 eta-ch gamma VSP_PWAVE; +0.0000 pi0 gamma VSP_PWAVE; +0.0003 e+ e- PHOTOS VLL; +0.0003 mu+ mu- PHOTOS VLL; +Enddecay + +############## +# eta + +Decay etagg +1.0 gamma gamma PHSP; +Enddecay + +Decay etapp0 +1.0 pi- pi+ pi0 ETA_DALITZ; +Enddecay + +Decay eta000 +1.0 pi0 pi0 pi0 PHSP; +Enddecay + +# B(eta -> neutrals) = 0.7142. Let evtgen renormalize +Decay eta-neu +0.3925 gamma gamma PHSP; +0.3210 pi0 pi0 pi0 PHSP; +0.0007 gamma gamma pi0 PHSP; +Enddecay + +# B(eta -> modes with charged tracks = .2858 Let EvtGen renornalize +Decay eta-ch +0.2320 pi- pi+ pi0 ETA_DALITZ; +0.0478 gamma pi- pi+ PHSP; +0.0049 gamma e+ e- PHSP; +0.0003 gamma mu+ mu- PHSP; +0.0008 pi+ pi- e+ e- PHSP; +Enddecay + +############## +# eta' + +Decay eta'ppetagg +1.0 pi+ pi- etagg PHSP; +Enddecay + +Decay eta'ppetapp0 +1.0 pi+ pi- etapp0 PHSP; +Enddecay + +Decay eta'00etagg +1.0 pi0 pi0 etagg PHSP; +Enddecay + +Decay eta'00etapp0 +1.0 pi0 pi0 etapp0 PHSP; +Enddecay + +Decay eta'rg +1.0 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay + +# B(eta'->neutrals)= 0.1739 Let EvtGen renormalize +Decay eta'neu +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-neu) = 0.2080*(.3925 + .3210 + .0007) = .1486 +0.1486 pi0 pi0 eta-neu PHSP; + +# BF(omega gamma) * BF(omega-neu) = 0.0302*(0.0850 + 0.0006 + 0.0004) +0.0026 omega-neu gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +0.0212 gamma gamma PHSP; +0.0015 pi0 pi0 pi0 PHSP; + +Enddecay + +# B(eta'-> modes with charged tracks= 0.8261464 Let EvtGen renormalize +Decay eta'-ch +0.4370 pi+ pi- eta PHSP; + +# BF(pi0pi0 eta) * BF(eta-ch) = 0.2080*0.2858 = 0.0594464 +0.0594464 pi0 pi0 eta-ch PHSP; +0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +# BF(omega gamma) * BF(omega-ch) = 0.0302 * 0.9140 = 0.02760 +0.02760 omega-ch gamma SVP_HELAMP 1.0 0.0 1.0 0.0; + +0.0001 gamma mu- mu+ PHOTOS PHSP; +Enddecay + +############## +# f0 + +Decay f_0pp +1.0 pi+ pi- PHSP; +Enddecay + +Decay f_0KK +1.0 K+ K- PHSP; +Enddecay + +############## +# omega + +# neutral-only omega modes. B = 0.0860 Let jetset renormalize +Decay omega-neu +0.0850 pi0 gamma VSP_PWAVE; +# BF(eta gamma) * BF(eta-neu) = 0.0008*(.3925 + .3210 + .0007) = .0006 +0.0006 eta-neu gamma VSP_PWAVE; +0.0004 pi0 pi0 gamma PHSP; +Enddecay + +# modes with charged tracks B = 0.9140 +Decay omega-ch +0.8880 pi- pi+ pi0 OMEGA_DALITZ; +0.0000 pi0 gamma VSP_PWAVE; +0.0221 pi- pi+ VSS; + +# B(eta g) * B(eta -> modes with charged tracks) = 0.0008 * 0.2858 = 0.000226 +0.000226 eta-ch gamma VSP_PWAVE; +0.0006 pi0 e+ e- PHOTOS PHSP; +0.0001 pi0 mu+ mu- PHOTOS PHSP; +0.0020 pi+ pi- gamma PHSP; +0.0000 pi0 pi0 gamma PHSP; +0.0010 pi+ pi- pi+ pi- PHSP; +Enddecay + +############## +# a_1 + +Decay a_1-1pr +0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+1pr + +Decay a_1-3pr +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +CDecay a_1+3pr + + +####################################################################################### +# Specific Ds Hadronic decays (Preset decays 0000 - 0999) +####################################################################################### + + +############## +# Ds+ -> Phi pi+ +############## + +Decay D_s+0000 +1.0 phi pi+ SVS; +Enddecay +CDecay D_s-0000 + +Decay D_s+0001 +1.0 phiKK pi+ SVS; +Enddecay +CDecay D_s-0001 + +Decay D_s+0002 +1.0 phipp0 pi+ SVS; +Enddecay +CDecay D_s-0002 + +Decay D_s+0003 +1.0 phiLS pi+ SVS; +Enddecay +CDecay D_s-0003 + +Decay D_s+0004 +1.0 phiLSpp pi+ SVS; +Enddecay +CDecay D_s-0004 + +Decay D_s+0005 +1.0 phiLS00 pi+ SVS; +Enddecay +CDecay D_s-0005 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0006 +1.0 phineu pi+ SVS; +Enddecay +CDecay D_s-0006 + + + +############## +# Ds+ -> K*0 K+ +############## + +Decay D_s+0007 +1.0 anti-K*0 K+ SVS; +Enddecay +CDecay D_s-0007 + +Decay D_s+0008 +1.0 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-0008 + +Decay D_s+0009 +1.0 anti-K*0-L0 K+ SVS; +Enddecay +CDecay D_s-0009 + +Decay D_s+0010 +1.0 anti-K*0-S000 K+ SVS; +Enddecay +CDecay D_s-0010 + +Decay D_s+0011 +1.0 anti-K*0-Spp0 K+ SVS; +Enddecay +CDecay D_s-0011 + +# anti-K*0 decays to all neutrals +Decay D_s+0012 +1.0 anti-K*0-neu K+ SVS; +Enddecay +CDecay D_s-0012 + + +############## +# Ds+ -> K0 K+ +############## + +Decay D_s+0013 +1.0 anti-K0 K+ PHSP; +Enddecay +CDecay D_s-0013 + +Decay D_s+0014 +1.0 K_L0 K+ PHSP; +Enddecay +CDecay D_s-0014 + +Decay D_s+0015 +1.0 K0-pp K+ PHSP; +Enddecay +CDecay D_s-0015 + +Decay D_s+0016 +1.0 K0-00 K+ PHSP; +Enddecay +CDecay D_s-0016 + + +############## +# Ds+ -> f0 pi+ +############## + +Decay D_s+0017 +1.0 f_0 pi+ PHSP; +Enddecay +CDecay D_s-0017 + +Decay D_s+0018 +1.0 f_0pp pi+ PHSP; +Enddecay +CDecay D_s-0018 + +Decay D_s+0019 +1.0 f_0KK pi+ PHSP; +Enddecay +CDecay D_s-0019 + + +############## +# Ds+ -> eta pi+ +############## + +Decay D_s+0020 +1.0 eta pi+ PHSP; +Enddecay +CDecay D_s-0020 + +Decay D_s+0021 +1.0 etagg pi+ PHSP; +Enddecay +CDecay D_s-0021 + +Decay D_s+0022 +1.0 etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0022 + +Decay D_s+0023 +1.0 eta000 pi+ PHSP; +Enddecay +CDecay D_s-0023 + +Decay D_s+0024 +1.0 eta-neu pi+ PHSP; +Enddecay +CDecay D_s-0024 + +############## +# Ds+ -> eta rho+ +############## + +Decay D_s+0025 +1.0 rho+ eta SVS; +Enddecay +CDecay D_s-0025 + +Decay D_s+0026 +1.0 rho+ etagg SVS; +Enddecay +CDecay D_s-0026 + +Decay D_s+0027 +1.0 rho+ etapp0 SVS; +Enddecay +CDecay D_s-0027 + +Decay D_s+0028 +1.0 rho+ eta000 SVS; +Enddecay +CDecay D_s-0028 + +Decay D_s+0029 +1.0 rho+ eta-neu SVS; +Enddecay +CDecay D_s-0029 + + +############## +# Ds+ -> eta' pi+ +############## + +Decay D_s+0030 +1.0 eta' pi+ PHSP; +Enddecay +CDecay D_s-0030 + +Decay D_s+0031 +1.0 eta'ppetagg pi+ PHSP; +Enddecay +CDecay D_s-0031 + +Decay D_s+0032 +1.0 eta'ppetapp0 pi+ PHSP; +Enddecay +CDecay D_s-0032 + +Decay D_s+0033 +1.0 eta'00etagg pi+ PHSP; +Enddecay +CDecay D_s-0033 + +Decay D_s+0034 +1.0 eta'00etapp0 pi+ PHSP; +Enddecay +CDecay D_s-0034 + +Decay D_s+0035 +1.0 eta'rg pi+ PHSP; +Enddecay +CDecay D_s-0035 + +############## +# Ds+ -> eta' rho+ +############## + +Decay D_s+0036 +1.0 rho+ eta' PHSP; +Enddecay +CDecay D_s-0036 + +Decay D_s+0037 +1.0 rho+ eta'ppetagg PHSP; +Enddecay +CDecay D_s-0037 + +Decay D_s+0038 +1.0 rho+ eta'ppetapp0 PHSP; +Enddecay +CDecay D_s-0038 + +Decay D_s+0039 +1.0 rho+ eta'00etagg PHSP; +Enddecay +CDecay D_s-0039 + +Decay D_s+0040 +1.0 rho+ eta'00etapp0 PHSP; +Enddecay +CDecay D_s-0040 + +Decay D_s+0041 +1.0 rho+ eta'rg PHSP; +Enddecay +CDecay D_s-0041 + + +############## +# Ds+ -> Phi K+ +############## + +Decay D_s+0042 +1.0 phi K+ SVS; +Enddecay +CDecay D_s-0042 + +Decay D_s+0043 +1.0 phiKK K+ SVS; +Enddecay +CDecay D_s-0043 + +Decay D_s+0044 +1.0 phipp0 K+ SVS; +Enddecay +CDecay D_s-0044 + +Decay D_s+0045 +1.0 phiLS K+ SVS; +Enddecay +CDecay D_s-0045 + +Decay D_s+0046 +1.0 phiLSpp K+ SVS; +Enddecay +CDecay D_s-0046 + +Decay D_s+0047 +1.0 phiLS00 K+ SVS; +Enddecay +CDecay D_s-0047 + +# Phi K, Phi -> all neutral final states. +Decay D_s+0048 +1.0 phineu K+ SVS; +Enddecay +CDecay D_s-0048 + +############## +# Ds+ -> phi rho+ +############## + +Decay D_s+0049 +1.0 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0049 + +Decay D_s+0050 +1.0 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0050 + +Decay D_s+0051 +1.0 phipp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0051 + +Decay D_s+0052 +1.0 phiLS rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0052 + +Decay D_s+0053 +1.0 phiLSpp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0053 + +Decay D_s+0054 +1.0 phiLS00 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0054 + +Decay D_s+0055 +1.0 phineu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0055 + + +############## +# Ds+ -> K0 pi+ +############## + +Decay D_s+0056 +1.0 K0 pi+ PHSP; +Enddecay +CDecay D_s-0056 + +Decay D_s+0057 +1.0 K_L0 pi+ PHSP; +Enddecay +CDecay D_s-0057 + +Decay D_s+0058 +1.0 K0-pp pi+ PHSP; +Enddecay +CDecay D_s-0058 + +Decay D_s+0059 +1.0 K0-00 pi+ PHSP; +Enddecay +CDecay D_s-0059 + + +############## +# Ds+ -> K*0 pi+ +############## + +Decay D_s+0060 +1.0 K*0 pi+ SVS; +Enddecay +CDecay D_s-0060 + +Decay D_s+0061 +1.0 K*0-Kp pi+ SVS; +Enddecay +CDecay D_s-0061 + +Decay D_s+0062 +1.0 K*0-L0 pi+ SVS; +Enddecay +CDecay D_s-0062 + +Decay D_s+0063 +1.0 K*0-S000 pi+ SVS; +Enddecay +CDecay D_s-0063 + +Decay D_s+0064 +1.0 K*0-Spp0 pi+ SVS; +Enddecay +CDecay D_s-0064 + +# K*0 decays to all neutrals +Decay D_s+0065 +1.0 K*0-neu pi+ SVS; +Enddecay +CDecay D_s-0065 + + +############## +# Ds+ -> K*0 rho+ +############## + +Decay D_s+0066 +1.0 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0066 + +Decay D_s+0067 +1.0 K*0-Kp rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0067 + +Decay D_s+0068 +1.0 K*0-L0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0068 + +Decay D_s+0069 +1.0 K*0-S000 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0069 + +Decay D_s+0070 +1.0 K*0-Spp0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0070 + +# K*0 decays to all neutrals +Decay D_s+0071 +1.0 K*0-neu rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0071 + + +############## +# Ds+ -> Phi pi+ pi- pi+ +############## + +Decay D_s+0072 +1.0 phi pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0072 + +Decay D_s+0073 +1.0 phiKK pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0073 + +Decay D_s+0074 +1.0 phipp0 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0074 + +Decay D_s+0075 +1.0 phiLS pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0075 + +Decay D_s+0076 +1.0 phiLSpp pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0076 + +Decay D_s+0077 +1.0 phiLS00 pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0077 + +# Phi pi, Phi -> all neutral final states. +Decay D_s+0078 +1.0 phineu pi+ pi- pi+ PHSP; +Enddecay +CDecay D_s-0078 + + +############## +# Ds+ -> anti-K*0 K*+ (includes Ks K- pi+ pi+) +############## + +Decay D_s+0079 +1.0 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0079 + +Decay D_s+0080 +1.0 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0080 + +Decay D_s+0081 +1.0 anti-K*0-Kp K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0081 + +Decay D_s+0082 +1.0 anti-K*0-Spp0 K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0082 + +############## +# Ds+ -> f0 pi pi0 +############## + +Decay D_s+0083 +1.0 f_0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-0083 + +Decay D_s+0084 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0084 + +Decay D_s+0085 +1.0 f_0pp pi+ pi0 PHSP; +Enddecay +CDecay D_s-0085 + + +############## +# Ds+ -> K0 K*+ +############## + +Decay D_s+0086 +1.0 anti-K0 K*+ PHSP; +Enddecay +CDecay D_s-0086 + +Decay D_s+0087 +1.0 K0-pp K*+Kp0 PHSP; +Enddecay +CDecay D_s-0087 + + +############## +# Ds+ -> phi a_1+ +############## + +Decay D_s+0088 +1.0 phi a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0088 + +Decay D_s+0089 +1.0 phiKK a_1+1pr SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0089 + +############## +# Ds+ -> Phi pi+ pi- pi+ pi0 +############## + +Decay D_s+0090 +1.0 phi pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0090 + +Decay D_s+0091 +1.0 phiKK pi+ pi- pi+ pi0 PHSP; +Enddecay +CDecay D_s-0091 + +############## +# Ds+ -> anti-K*0 K*+ pi0 (includes Ks K- pi+ pi+ pi0) +############## + +Decay D_s+0092 +1.0 anti-K*0 K*+ pi0 PHSP; +Enddecay +CDecay D_s-0092 + +Decay D_s+0093 +1.0 anti-K*0-Kp K*+K0ppp pi0 PHSP; +Enddecay +CDecay D_s-0093 + +Decay D_s+0094 +1.0 anti-K*0-Kp K*+Kp0 pi0 PHSP; +Enddecay +CDecay D_s-0094 + + +############## +# Ds+ -> eta' a1 +############## + +Decay D_s+0095 +1.0 a_1+ eta' SVS; +Enddecay +CDecay D_s-0095 + +Decay D_s+0096 +1.0 a_1+1pr eta'ppetagg SVS; +Enddecay +CDecay D_s-0096 + + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0097 +1.0 phi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0097 + +############## +# Ds+ -> phi K*+ +############## + +Decay D_s+0098 +1.0 phiKK K*+Kp0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +CDecay D_s-0098 + + + +####################################################################################### +# Specific Ds Semileptonic decays (Preset decays 1000 - 1999) +####################################################################################### + +############## +# Ds+ -> phi e+ nu_e +############## + +Decay D_s+1000 +1.0 phi e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1000 + +Decay D_s+1001 +1.0 phiKK e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1001 + +Decay D_s+1002 +1.0 phipp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1002 + +Decay D_s+1003 +1.0 phiLS e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1003 + +Decay D_s+1004 +1.0 phiLSpp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1004 + +Decay D_s+1005 +1.0 phiLS00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1005 + +Decay D_s+1006 +1.0 phineu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1006 + +############## +# Ds+ -> phi mu+ nu_mu +############## + +Decay D_s+1007 +1.0 phi mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1007 + +Decay D_s+1008 +1.0 phiKK mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1008 + +Decay D_s+1009 +1.0 phipp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1009 + +Decay D_s+1010 +1.0 phiLS mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1010 + +Decay D_s+1011 +1.0 phiLSpp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1011 + +Decay D_s+1012 +1.0 phiLS00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1012 + +Decay D_s+1013 +1.0 phineu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1013 + + +############## +# Ds+ -> eta e+ nu_e +############## + +Decay D_s+1014 +1.0 eta e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1014 + +Decay D_s+1015 +1.0 etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1015 + +Decay D_s+1016 +1.0 etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1016 + +Decay D_s+1017 +1.0 eta000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1017 + +Decay D_s+1018 +1.0 eta-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1018 + + + +############## +# Ds+ -> eta mu+ nu_mu +############## + +Decay D_s+1019 +1.0 eta mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1019 + +Decay D_s+1020 +1.0 etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1020 + +Decay D_s+1021 +1.0 etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1021 + +Decay D_s+1022 +1.0 eta000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1022 + +Decay D_s+1023 +1.0 eta-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1023 + + +############## +# Ds+ -> eta' e+ nu_e +############## + +Decay D_s+1024 +1.0 eta' e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1024 + +Decay D_s+1025 +1.0 eta'ppetagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1025 + +Decay D_s+1026 +1.0 eta'ppetapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1026 + +Decay D_s+1027 +1.0 eta'00etagg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1027 + +Decay D_s+1028 +1.0 eta'00etapp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1028 + +Decay D_s+1029 +1.0 eta'rg e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1029 + +Decay D_s+1030 +1.0 eta'neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1030 + + +############## +# Ds+ -> eta' mu+ nu_mu +############## + +Decay D_s+1031 +1.0 eta' mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1031 + +Decay D_s+1032 +1.0 eta'ppetagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1032 + +Decay D_s+1033 +1.0 eta'ppetapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1033 + +Decay D_s+1034 +1.0 eta'00etagg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1034 + +Decay D_s+1035 +1.0 eta'00etapp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1035 + +Decay D_s+1036 +1.0 eta'rg mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1036 + +Decay D_s+1037 +1.0 eta'neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1037 + + +############## +# Ds+ -> anti-K0 e+ nu_e +############## + +Decay D_s+1038 +1.0 anti-K0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1038 + +Decay D_s+1039 +1.0 K0-pp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1039 + +Decay D_s+1040 +1.0 K0-00 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1040 + +Decay D_s+1041 +1.0 anti-K0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1041 + + +############## +# Ds+ -> anti-K0 mu+ nu_mu +############## + +Decay D_s+1042 +1.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1042 + +Decay D_s+1043 +1.0 K0-pp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1043 + +Decay D_s+1044 +1.0 K0-00 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1044 + +Decay D_s+1045 +1.0 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1045 + + + + +############## +# Ds+ -> anti-K*0 e+ nu_e +############## + +Decay D_s+1046 +1.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1046 + +Decay D_s+1047 +1.0 anti-K*0-Kp e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1047 + +Decay D_s+1048 +1.0 anti-K*0-L0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1048 + +Decay D_s+1049 +1.0 anti-K*0-S000 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1049 + +Decay D_s+1050 +1.0 anti-K*0-Spp0 e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1050 + +Decay D_s+1051 +1.0 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-1051 + + +############## +# Ds+ -> anti-K*0 mu+ nu_mu +############## + +Decay D_s+1052 +1.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1052 + +Decay D_s+1053 +1.0 anti-K*0-Kp mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1053 + +Decay D_s+1054 +1.0 anti-K*0-L0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1054 + +Decay D_s+1055 +1.0 anti-K*0-S000 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1055 + +Decay D_s+1056 +1.0 anti-K*0-Spp0 mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1056 + +Decay D_s+1057 +1.0 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-1057 + + + +####################################################################################### +# Specific Ds Leptonic or rare decays (Preset decays 2000 - 2999) +####################################################################################### + +Decay D_s+2000 +1.0 e+ nu_e PHOTOS SLN; +Enddecay +CDecay D_s-2000 + +Decay D_s+2001 +1.0 mu+ nu_mu PHOTOS SLN; +Enddecay +CDecay D_s-2001 + +Decay D_s+2002 +1.0 tau+ nu_tau SLN; +Enddecay +CDecay D_s-2002 + +Decay D_s+2003 +1.0 tau+e nu_tau SLN; +Enddecay +CDecay D_s-2003 + +Decay D_s+2004 +1.0 tau+mu nu_tau SLN; +Enddecay +CDecay D_s-2004 + +Decay D_s+2005 +1.0 tau+pi nu_tau SLN; +Enddecay +CDecay D_s-2005 + +Decay D_s+2006 +1.0 tau+other1pr nu_tau SLN; +Enddecay +CDecay D_s-2006 + +Decay D_s+2007 +1.0 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-2007 + +Decay D_s+2008 +1.0 tau+a1 nu_tau SLN; +Enddecay +CDecay D_s-2008 + +Decay D_s+2009 +1.0 tau+a1+1pr nu_tau SLN; +Enddecay +CDecay D_s-2009 + +Decay D_s+2010 +1.0 tau+a1+3pr nu_tau SLN; +Enddecay +CDecay D_s-2010 + +Decay D_s+2011 +1.0 tau+K nu_tau SLN; +Enddecay +CDecay D_s-2011 + +Decay D_s+2012 +1.0 tau+K* nu_tau SLN; +Enddecay +CDecay D_s-2012 + +Decay D_s+2013 +1.0 tau+K*+K0ppp nu_tau SLN; +Enddecay +CDecay D_s-2013 + +Decay D_s+2014 +1.0 tau+K*+K000p nu_tau SLN; +Enddecay +CDecay D_s-2014 + +Decay D_s+2015 +1.0 tau+K*+Lp nu_tau SLN; +Enddecay +CDecay D_s-2015 + +Decay D_s+2016 +1.0 tau+K*+Kp0 nu_tau SLN; +Enddecay +CDecay D_s-2016 + +Decay D_s+2017 +1.0 tau+K*+1pr nu_tau SLN; +Enddecay +CDecay D_s-2017 + +Decay D_s+2018 +1.0 tau+KKp nu_tau SLN; +Enddecay +CDecay D_s-2018 + +Decay D_s+2019 +1.0 tau+Kpp nu_tau SLN; +Enddecay +CDecay D_s-2019 + +Decay D_s+2020 +1.0 tau+ppp0 nu_tau SLN; +Enddecay +CDecay D_s-2020 + +Decay D_s+2021 +1.0 tau+p000 nu_tau SLN; +Enddecay +CDecay D_s-2021 + +Decay D_s+2022 +1.0 tau+ppppp nu_tau SLN; +Enddecay +CDecay D_s-2022 + +Decay D_s+2023 +1.0 tau+ppp00 nu_tau SLN; +Enddecay +CDecay D_s-2023 + +Decay D_s+2024 +1.0 tau+p0000 nu_tau SLN; +Enddecay +CDecay D_s-2024 + +Decay D_s+2025 +1.0 tau+ppppp0 nu_tau SLN; +Enddecay +CDecay D_s-2025 + +Decay D_s+2026 +1.0 tau+ppp000 nu_tau SLN; +Enddecay +CDecay D_s-2026 + +Decay D_s+2027 +1.0 tau+p00000 nu_tau SLN; +Enddecay +CDecay D_s-2027 + +Decay D_s+2028 +1.0 tau+rho nu_tau SLN; +Enddecay +CDecay D_s-2028 + + +####################################################################################### +# Combinations or special Ds decays (Preset decays 9000 - 9099) +####################################################################################### + +# Generic D_s decays +Decay D_s+9000 +1.0 D_s+ PHSP; +Enddecay +CDecay D_s-9000 + +#B(Ds->semi-electronic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9001 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; +Enddecay +CDecay D_s-9001 + +#B(Ds->semi-muonic 1prongs) = 0.0592 Let EvtGen renormalize +Decay D_s+9002 +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9002 +#semileptonic 1prongs + +#B(Ds->semi-leptonic 1prongs) = 0.1184 Let EvtGen renormalize +Decay D_s+9003 +# B(phi e nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu e+ nu_e PHOTOS ISGW2; +# B(eta e nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu e+ nu_e PHOTOS ISGW2; +# B(eta' e nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu e+ nu_e PHOTOS ISGW2; +# B(anti-K0 e nu) * B(anti-K*0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu e+ nu_e PHOTOS ISGW2; + +# B(phi mu nu) * B(phi-> neutrals) = 0.02 * 0.2340 = 0.0047 +0.0047 phineu mu+ nu_mu PHOTOS ISGW2; +# B(eta mu nu) * B(eta-> neutrals) = 0.0388 * 0.7142 = 0.0277 +0.0277 eta-neu mu+ nu_mu PHOTOS ISGW2; +# B(eta' mu nu) * B(eta'-> neutrals) = 0.0168 * 0.1739 = 0.0029 +0.0029 eta'neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0027 * 0.65695=0.0018 +0.0018 anti-K0-neu mu+ nu_mu PHOTOS ISGW2; +# B(anti-K0 mu nu) * B(anti-K0-> neutrals) = 0.0010 * 0.2207=0.0221 +0.0221 anti-K*0-neu mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9003 + + +#Ds -> hadronic only, excluding Klong K+ +Decay D_s+9004 +0.0 phi e+ nu_e PHOTOS ISGW2; +0.0 eta e+ nu_e PHOTOS ISGW2; +0.0 eta' e+ nu_e PHOTOS ISGW2; +0.0 anti-K0 e+ nu_e PHOTOS ISGW2; +0.0 anti-K*0 e+ nu_e PHOTOS ISGW2; +0.0 phi mu+ nu_mu PHOTOS ISGW2; +0.0 eta mu+ nu_mu PHOTOS ISGW2; +0.0 eta' mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K0 mu+ nu_mu PHOTOS ISGW2; +0.0 anti-K*0 mu+ nu_mu PHOTOS ISGW2; +0.0 mu+ nu_mu PHOTOS SLN; +0.0 tau+ nu_tau SLN; +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0 K_L0 K+ PHSP; +0.0180 K_S0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9004 + +# K0 K pi0 (two ways) +Decay D_s+9005 +0.5 D_s+0011 PHSP; +0.5 D_s+0087 PHSP; +Enddecay +CDecay D_s-9005 + +# Generic cleanest hadronic tag +# phiKK pi, K0-pp K, K*-Kp K +# 0.0520 of all Ds decays +Decay D_s+9006 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; +Enddecay +CDecay D_s-9006 + +# Generic clean hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# 0.110 of all Ds decays +Decay D_s+9007 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; +Enddecay +CDecay D_s-9007 + +# Loose hadronic tag +# phiKK pi, f0_pipi pi, K0-pp K, K*-Kp K, phiKK rho, phiKK pipipi, K0-pp K pi+pi+, phiKK K +# etagg pi, etapp0 pi, etagg rho, etapp0 rho, eta'_ppgg pi, eta'_ppgg rho, +# 0.2124 of All Ds decays +Decay D_s+9008 +# B(phipi) * B(phi->KK) = 0.0360 * 0.4910 = 0.017676 +0.017676 phiKK pi+ SVS; + +# B(eta pi) * B(eta->gg) = 0.0170 * 0.3925 = 0.0066725 +0.0066725 etagg pi+ PHSP; + +# B(eta pi) * B(eta->pipipi0) = 0.0170 * 0.2320 = 0.003944 +0.003944 etapp0 pi+ PHSP; + + +# B(eta' pi) * B(eta'->pipieta) * N(eta->gg) = 0.0390 * 0.4370 * 0.3925 = 0.0066893775 +0.0066893775 eta'ppetagg pi+ PHSP; + +# B(f0 pi) * B(f0->pipi) = 0.018 * 0.52 = 0.00936 +0.00936 f_0pp pi+ PHSP; + +# B(phirho) * B(phi->KK) = 0.067 * 0.4910 = 0.032897 +0.032897 phiKK rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(eta rho) * B(eta->gg) = 0.1080 * 0.3925 = 0.04239 +0.04239 rho+ etagg SVS; + +# B(eta rho) * B(eta->pipipi0) = 0.1080 * 0.2320 = 0.025056 +0.025056 rho+ etapp0 SVS; + +# B(eta' rho) * B(eta'->pipieta) * N(eta->gg) = 0.1010 * 0.4370 * 0.3925 = 0.0173237725 +0.0173237725 rho+ eta'ppetagg SVS; + +# B(phipipipi) * B(phi->KK) = 0.0118 * 0.4910 = 0.0057938 +0.0057938 phiKK pi+ pi- pi+ PHSP; + +# B(K0 K) * B(K0->Ks->pipi) = 0.036 * 0.5 * 0.6861 = 0.0123498 +0.0123498 K0-pp K+ PHSP; + +# B(K*0 K) * B(K*0->Kpi) = 0.0330 * 0.6657 = 0.0219681 +0.0219681 anti-K*0-Kp K+ SVS; + +# B(K*0 K*+) * B(K*0->Kpi) * B(K*+ -> K0pi) * B(K0->Ks->pipi) = +# 0.0580 * 0.6657 * 0.6660 * 0.5 * 0.6861 = 0.008821413975780 +0.008821413975780 anti-K*0-Kp K*+K0ppp SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; + +# B(phipi) * B(phi->KK) = 0.003 * 0.4910 = 0.001473 +0.001473 phiKK K+ SVS; + +Enddecay +CDecay D_s-9008 + +# multiprong semileptonic 2 x 0.032007 = 0.06401 +Decay D_s+9009 +# B(phi e nu) * B(phi -> modes with charged tracks) = 0.0200 * 0.7760 +0.01552 phi-ch e+ nu_e PHOTOS ISGW2; + +# B(eta e nu) * B(eta -> modes with charged tracks) = 0.0260 * 0.2858 = 0.0074308 +0.0074308 eta-ch e+ nu_e PHOTOS ISGW2; + +# B(eta' e nu) * B(eta' -> modes with charged tracks) = 0.0089 * 0.8261464 = 0.00735 +0.00735 eta'-ch e+ nu_e PHOTOS ISGW2; + +# B(K0 e nu) * B(K0->Ks->pipi) = 0.0027 * 0.5 * .6861 = 0.000926235 +0.000926235 K0-pp e+ nu_e PHOTOS ISGW2; + +# B(K*0 e nu) * B(K*0 -> modes with charged tracks) = 0.0010 * 0.7793 = 0.00077993 +0.00077993 anti-K*0-ch e+ nu_e PHOTOS ISGW2; + +0.01552 phi-ch mu+ nu_mu PHOTOS ISGW2; +0.0074308 eta-ch mu+ nu_mu PHOTOS ISGW2; +0.00735 eta'-ch mu+ nu_mu PHOTOS ISGW2; +0.000926235 K0-pp mu+ nu_mu PHOTOS ISGW2; +0.00077993 anti-K*0-ch mu+ nu_mu PHOTOS ISGW2; +Enddecay +CDecay D_s-9009 + +#Leptonic 1 prong +Decay D_s+9010 +0.0046 mu+ nu_mu PHOTOS SLN; +# B(tau nu) * B(tau -> 1prong) = 0.07 * 0.84385 = 0.0590695 +0.0590695 tau+all1pr nu_tau SLN; +Enddecay +CDecay D_s-9010 + +#Leptonic multiprong +# B(tau nu) * B(tau -> multiprong) = 0.07 * 0.15615 =0.0109305 +Decay D_s+9011 +0.0109305 tau+multiprong nu_tau SLN; +Enddecay +CDecay D_s-9011 + +#Hadronic +Decay D_s+9012 +0.0360 phi pi+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 phi pi+ pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; +0.0003 phi K+ SVS; +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay +CDecay D_s-9012 + +# B(K0 K) * B(K0 -> all neutrals) = 0.0360 * 0.65695 = 0.0236502 +Decay D_s+9013 +0.0236502 K0-neu K+ PHSP; +Enddecay +CDecay D_s-9013 + +####################################################################################### +# Combinations or special D+ decays (Preset decays 9100 - 9199) +####################################################################################### + +# Generic D+ decays +Decay D+9100 +1.0 D+ PHSP; +Enddecay +CDecay D-9100 + +####################################################################################### +# Combinations or special D0 decays (Preset decays 9200 - 9299) +####################################################################################### + +# Generic D0 decays +Decay D0_9200 +1.0 D0 PHSP; +Enddecay +CDecay anti-D0_9200 + + +####################################################################################### +# Now, please provide a SEPERATE .dec file that specifies which vphoton decay to use +# and which forces the mesons to decay. Should LooK like + +# # Vphoton Mode 124 25% psi(4040)DsDs 75% psi(4160)Ds*Ds +# # Ds1 Mode 0001 100% phipi, phi->KK +# # Ds2 Mode 2001 50% mu nu Mode 2003 50% tau nu, tau->e +# +# Decay vpho +# 1.0 vphoton124 PHSP; +# Enddecay +# +# Decay D_s+1 +# 1.0 D_s+0001 PHSP; +# Enddecay +# CDecay D_s-1 +# +# Decay D_s+2 +# 0.5 D_s+2001 PHSP; +# 0.5 D_s+2003 PHSP; +# Enddecay +# CDecay D_s-2 + + +# Vphoton Mode 133 25% psi(4040)D+D- 75% psi(4160)D*+D- +# Generic D decays + +Decay vpho +1.0 vphoton133 PHSP; +Enddecay + +# Generic D0, D+, Ds decays + +Decay D_s+1 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-1 + +Decay D_s+2 +1.0 D_s+9000 PHSP; +Enddecay +CDecay D_s-2 + +Decay D+1 +1.0 D+9100 PHSP; +Enddecay +CDecay D-1 + +Decay D+2 +1.0 D+9100 PHSP; +Enddecay +CDecay D-2 + +Decay D01 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D01 + +Decay D02 +1.0 D0_9200 PHSP; +Enddecay +CDecay anti-D02 + +End diff --git a/BaBar_2014/InclDs1D_Dwave.dec b/BaBar_2014/InclDs1D_Dwave.dec new file mode 100755 index 0000000..35f961e --- /dev/null +++ b/BaBar_2014/InclDs1D_Dwave.dec @@ -0,0 +1,80 @@ +#################################################### +# # +# Inclusive DD* decay.dec #1 # +# # +# DD* signal from B0-antiB0 for PRV0 # +# # +# # +# Produces a mix of signal # +# # +# 100% signal: # +# # +# Decay: # +# anti-B0 ->Ds_1-(2535) D+, B0 -> X +c.c. # +# |-> anti-D*0 K- | # +# |-> anti-D0 pi0 | # +# |-> X | # +# |-> K- pi+ pi+ # +# 100% # +# # +# 10 Mar 01 # +# Roy Aleksan # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyDs_1+ D_s1+ +Alias MyDs_1- D_s1- +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyDs_1- MyD+ SVS; +Enddecay +# +Decay MyDs_1- +1.0000 Myanti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay Myanti-D*0 +1.0000 anti-D0 pi0 VSS; +Enddecay +# +Decay MyD+ +1,0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyB0 +1.0000 MyDs_1+ MyD- SVS; +Enddecay +# +Decay MyDs_1+ +1.0000 MyD*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD*0 +1.0000 D0 pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +End + + diff --git a/BaBar_2014/InclDs1D_Swave.dec b/BaBar_2014/InclDs1D_Swave.dec new file mode 100755 index 0000000..96324db --- /dev/null +++ b/BaBar_2014/InclDs1D_Swave.dec @@ -0,0 +1,80 @@ +#################################################### +# # +# Inclusive DD* decay.dec #1 # +# # +# DD* signal from B0-antiB0 for PRV0 # +# # +# # +# Produces a mix of signal # +# # +# 100% signal: # +# # +# Decay: # +# anti-B0 ->Ds_1-(2535) D+, B0 -> X +c.c. # +# |-> anti-D*0 K- | # +# |-> anti-D0 pi0 | # +# |-> X | # +# |-> K- pi+ pi+ # +# 100% # +# # +# 10 Mar 01 # +# Roy Aleksan # +#################################################### +# +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyDs_1+ D_s1+ +Alias MyDs_1- D_s1- +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias Myanti-D*0 anti-D*0 +Alias MyD*- D*- +Alias MyD+ D+ +Alias MyD- D- +Alias MyK*0 K*0 +Alias Myanti-K*0 anti-K*0 +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 B0 anti-B0 MyB0 Myanti-B0 VSS_BMIX dm; +Enddecay +# +Decay Myanti-B0 +1.0000 MyDs_1- MyD+ SVS; +Enddecay +# +Decay MyDs_1- +1.0000 Myanti-D*0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay Myanti-D*0 +1.0000 anti-D0 pi0 VSS; +Enddecay +# +Decay MyD+ +1,0000 K- pi+ pi+ D_DALITZ; +Enddecay +# +Decay MyB0 +1.0000 MyDs_1+ MyD- SVS; +Enddecay +# +Decay MyDs_1+ +1.0000 MyD*0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD*0 +1.0000 D0 pi0 VSS; +Enddecay +# +Decay MyD- +1.0000 K+ pi- pi- D_DALITZ; +Enddecay +# +End + + diff --git a/BaBar_2014/JpsiToLL.dec b/BaBar_2014/JpsiToLL.dec new file mode 100644 index 0000000..18f5875 --- /dev/null +++ b/BaBar_2014/JpsiToLL.dec @@ -0,0 +1,10 @@ +################################################################### +# Force the Jpsi decay into alectron and muon pairs +# Author: R. Faccini 17 Nov 1999 +# Mail: RFACCINI@SLAC.STANFORD.EDU +################################################################### +Decay J/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +End diff --git a/BaBar_2014/LFV_e_tau.dec b/BaBar_2014/LFV_e_tau.dec new file mode 100644 index 0000000..c8e2a8d --- /dev/null +++ b/BaBar_2014/LFV_e_tau.dec @@ -0,0 +1,45 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> e+ tau- # +# |-> e- nu_e_bar nu_tau # +# |-> a_1- nu_tau # +# |-> mu- nu_mu_bar nu_tau # +# |-> pi- nu_tau # +# # +# and charge conjugate states. # +# # +# Author: Gian Gopal mod - Nicolo de Groot # +# Created: 8/Oct/2001 # +####################################################### +# +Alias mytau+ tau+ +Alias mytau- tau- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +# +Decay Upsilon(4S) +0.50 e+ mytau- VLL; +0.50 e- mytau+ VLL; +Enddecay +# +Decay mytau- +0.186 pi- nu_tau TAUSCALARNU; +0.288 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.288 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.237 mya_1- nu_tau TAUVECTORNU; +Enddecay +Decay mytau+ +0.186 pi+ anti-nu_tau TAUSCALARNU; +0.288 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +0.288 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +0.237 mya_1+ anti-nu_tau TAUVECTORNU; +Enddecay +Decay mya_1+ +1.0 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay mya_1- +1.0 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +End + diff --git a/BaBar_2014/LFV_e_tau_to_a1_taunu.dec b/BaBar_2014/LFV_e_tau_to_a1_taunu.dec new file mode 100644 index 0000000..2ff3a1f --- /dev/null +++ b/BaBar_2014/LFV_e_tau_to_a1_taunu.dec @@ -0,0 +1,37 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> e+ tau- # +# | -> a_1- nu_tau # +# |-> rho_o pi- # +# and charge conjugate states. # +# # +# Author: Gian Gopal + Nicolo de Groot # +# Created: 8/Oct/2002 # +####################################################### +# +# +Alias mytau+ tau+ +Alias mytau- tau- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +# +Decay Upsilon(4S) +0.50 e+ mytau- VLL; +0.50 e- mytau+ VLL; +Enddecay +# +Decay mytau- +1.0 mya_1- nu_tau TAUVECTORNU; +Enddecay +Decay mytau+ +1.0 mya_1+ anti-nu_tau TAUVECTORNU; +Enddecay +Decay mya_1+ +1.0 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay mya_1- +1.0 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +End + diff --git a/BaBar_2014/LFV_e_tau_to_e_enu_taunu.dec b/BaBar_2014/LFV_e_tau_to_e_enu_taunu.dec new file mode 100644 index 0000000..1aa5a06 --- /dev/null +++ b/BaBar_2014/LFV_e_tau_to_e_enu_taunu.dec @@ -0,0 +1,27 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> e+ tau- # +# |-> e- nu_e_bar nu_tau # +# and charge conjugate states. # +# # +# Author: Gian Gopal + Nicolo de Groot # +# Created: 8/Oct/2002 # +####################################################### +# +Alias mytau+ tau+ +Alias mytau- tau- +# +Decay Upsilon(4S) +0.50 e+ mytau- VLL; +0.50 e- mytau+ VLL; +Enddecay +# +Decay mytau- +0.288 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +Decay mytau+ +0.288 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay +End + diff --git a/BaBar_2014/LFV_e_tau_to_mu_munu_taunu.dec b/BaBar_2014/LFV_e_tau_to_mu_munu_taunu.dec new file mode 100644 index 0000000..58ff0f7 --- /dev/null +++ b/BaBar_2014/LFV_e_tau_to_mu_munu_taunu.dec @@ -0,0 +1,28 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> e+ tau- # +# |-> mu- nu_mu_bar nu_tau # +# and charge conjugate states. # +# # +# Author: Gian Gopal + Nicolo de Groot # +# Created: 8/Oct//2002 # +####################################################### +# +# +Alias mytau+ tau+ +Alias mytau- tau- +# +Decay Upsilon(4S) +0.50 e+ mytau- VLL; +0.50 e- mytau+ VLL; +Enddecay +# +Decay mytau- +0.288 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +Decay mytau+ +0.288 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +End + diff --git a/BaBar_2014/LFV_e_tau_to_pi_taunu.dec b/BaBar_2014/LFV_e_tau_to_pi_taunu.dec new file mode 100644 index 0000000..223c2e8 --- /dev/null +++ b/BaBar_2014/LFV_e_tau_to_pi_taunu.dec @@ -0,0 +1,28 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> e+ tau- # +# |-> pi- nu_tau # +# and charge conjugate states. # +# # +# Author: Gian Gopal + Nicolo de Groot # +# Created: 8/Oct//2002 # +####################################################### +# +# +Alias mytau+ tau+ +Alias mytau- tau- +# +Decay Upsilon(4S) +0.50 e+ mytau- VLL; +0.50 e- mytau+ VLL; +Enddecay +# +Decay mytau- +1.0 pi- nu_tau TAUSCALARNU; +Enddecay +Decay mytau+ +1.0 pi+ anti-nu_tau TAUSCALARNU; +Enddecay +End + diff --git a/BaBar_2014/LFV_mu_tau.dec b/BaBar_2014/LFV_mu_tau.dec new file mode 100644 index 0000000..154f63f --- /dev/null +++ b/BaBar_2014/LFV_mu_tau.dec @@ -0,0 +1,45 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> mu+ tau- # +# |-> e- nu_e_bar nu_tau # +# |-> a_1- nu_tau # +# |-> mu- nu_mu_bar nu_tau # +# |-> pi- nu_tau # +# # +# and charge conjugate states. # +# # +# Author: Gian Gopal # +# Created: 9/Nov//2001 # +####################################################### +# +Alias mytau+ tau+ +Alias mytau- tau- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +# +Decay Upsilon(4S) +0.50 mu+ mytau- VLL; +0.50 mu- mytau+ VLL; +Enddecay +# +Decay mytau- +0.186 pi- nu_tau TAUSCALARNU; +0.288 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +0.288 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +0.237 mya_1- nu_tau TAUVECTORNU; +Enddecay +Decay mytau+ +0.186 pi+ anti-nu_tau TAUSCALARNU; +0.288 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +0.288 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +0.237 mya_1+ anti-nu_tau TAUVECTORNU; +Enddecay +Decay mya_1+ +1.0 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay mya_1- +1.0 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +End + diff --git a/BaBar_2014/LFV_mu_tau_to_a1_taunu.dec b/BaBar_2014/LFV_mu_tau_to_a1_taunu.dec new file mode 100644 index 0000000..6d76a18 --- /dev/null +++ b/BaBar_2014/LFV_mu_tau_to_a1_taunu.dec @@ -0,0 +1,37 @@ +####################################################### +# Lepton Flavor Violation # +# +# Decay: Ups(4S) -> mu+ tau- # +# | -> a_1- nu_tau # +# |-> rho_o pi- # +# and charge conjugate states. # +# # +# Author: Gian Gopal # +# Created: 9/Nov//2001 # +####################################################### +# +# +Alias mytau+ tau+ +Alias mytau- tau- +Alias mya_1+ a_1+ +Alias mya_1- a_1- +# +Decay Upsilon(4S) +0.50 mu+ mytau- VLL; +0.50 mu- mytau+ VLL; +Enddecay +# +Decay mytau- +1.0 mya_1- nu_tau TAUVECTORNU; +Enddecay +Decay mytau+ +1.0 mya_1+ anti-nu_tau TAUVECTORNU; +Enddecay +Decay mya_1+ +1.0 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay mya_1- +1.0 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +End + diff --git a/BaBar_2014/LFV_mu_tau_to_e_enu_taunu.dec b/BaBar_2014/LFV_mu_tau_to_e_enu_taunu.dec new file mode 100644 index 0000000..3af3c18 --- /dev/null +++ b/BaBar_2014/LFV_mu_tau_to_e_enu_taunu.dec @@ -0,0 +1,27 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> mu+ tau- # +# |-> e- nu_e_bar nu_tau # +# and charge conjugate states. # +# # +# Author: Gian Gopal # +# Created: 9/Nov//2001 # +####################################################### +# +Alias mytau+ tau+ +Alias mytau- tau- +# +Decay Upsilon(4S) +0.50 mu+ mytau- VLL; +0.50 mu- mytau+ VLL; +Enddecay +# +Decay mytau- +0.288 e- anti-nu_e nu_tau PHOTOS TAULNUNU; +Enddecay +Decay mytau+ +0.288 e+ nu_e anti-nu_tau PHOTOS TAULNUNU; +Enddecay +End + diff --git a/BaBar_2014/LFV_mu_tau_to_mu_munu_taunu.dec b/BaBar_2014/LFV_mu_tau_to_mu_munu_taunu.dec new file mode 100644 index 0000000..2fccfe5 --- /dev/null +++ b/BaBar_2014/LFV_mu_tau_to_mu_munu_taunu.dec @@ -0,0 +1,28 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> mu+ tau- # +# |-> mu- nu_mu_bar nu_tau # +# and charge conjugate states. # +# # +# Author: Gian Gopal # +# Created: 9/Nov//2001 # +####################################################### +# +# +Alias mytau+ tau+ +Alias mytau- tau- +# +Decay Upsilon(4S) +0.50 mu+ mytau- VLL; +0.50 mu- mytau+ VLL; +Enddecay +# +Decay mytau- +0.288 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; +Enddecay +Decay mytau+ +0.288 mu+ nu_mu anti-nu_tau PHOTOS TAULNUNU; +Enddecay +End + diff --git a/BaBar_2014/LFV_mu_tau_to_pi_taunu.dec b/BaBar_2014/LFV_mu_tau_to_pi_taunu.dec new file mode 100644 index 0000000..6509fa2 --- /dev/null +++ b/BaBar_2014/LFV_mu_tau_to_pi_taunu.dec @@ -0,0 +1,28 @@ +####################################################### +# Lepton Flavor Violation # +# # +# Decay: Ups(4S) -> mu+ tau- # +# |-> pi- nu_tau # +# and charge conjugate states. # +# # +# Author: Gian Gopal # +# Created: 9/Nov//2001 # +####################################################### +# +# +Alias mytau+ tau+ +Alias mytau- tau- +# +Decay Upsilon(4S) +0.50 mu+ mytau- VLL; +0.50 mu- mytau+ VLL; +Enddecay +# +Decay mytau- +1.0 pi- nu_tau TAUSCALARNU; +Enddecay +Decay mytau+ +1.0 pi+ anti-nu_tau TAUSCALARNU; +Enddecay +End + diff --git a/BaBar_2014/Lambda_cp_pKpi.dec b/BaBar_2014/Lambda_cp_pKpi.dec new file mode 100644 index 0000000..75f9bf6 --- /dev/null +++ b/BaBar_2014/Lambda_cp_pKpi.dec @@ -0,0 +1,48 @@ +# FILE: Lambda_c+_pKpi.dec +# PURPOSE: force Lambda_c to decay to pKpi using Phase Space only +# (no resonances) +# Also make Upsilon decay to only B pairs without mixing, +# add make the continuum virtual photon (vpho) go to ccbar +# (quark #4). +# +# This was meant to be used in either continuum or Upsilon(4S) +# generation to study the plain phase space of the Lambda_c +# decay to p K pi. Since Lambda_c are not produced in uds, +# only charm quarks need to be produced from continuum. +# +# Only one Lambda_c per event was wanted, since all decays forced to pKpi, +# and it is unlikely that one ever wanted events with 2 Lambda_c, both +# going to p K pi. Hence so no mixing was allowed. +# +# The filter then can ask for a Lambda_c+ or an anti-Lambda_c-. If +# mixing was allowed, then you would get events with 2 Lambda_c+s +# if one B mixed and both Bs decayed to Lambda_c. +# +# AUTHOR: Chris Roat croat@stanford.edu + +# +# Decay 4S with no mixing, equal amounts of B+B- and B0B0bar +# +Decay Upsilon(4S) +0.50000 B+ B- VSS; +0.50000 B0 anti-B0 VSS; +Enddecay + +# +# Force the vpho fragmentation to produce a ccbar pair +# +Decay vpho +1.0 JSCONT 4; +Enddecay + +# +# Force all Lambda_c decays to p K pi, using phase space +# + +Decay Lambda_c+ +1.000 p+ K- pi+ PHSP; +Enddecay + +CDecay anti-Lambda_c- + +End diff --git a/BaBar_2014/Lambda_cp_pKpi_Force_Dmeson_Decays.dec b/BaBar_2014/Lambda_cp_pKpi_Force_Dmeson_Decays.dec new file mode 100644 index 0000000..c58b63d --- /dev/null +++ b/BaBar_2014/Lambda_cp_pKpi_Force_Dmeson_Decays.dec @@ -0,0 +1,82 @@ +# FILE: Lambda_c+_pKpi_Force_Dmeson_Decays.dec +# PURPOSE: force Lambda_c to decay to pKpi using Phase Space only +# (no resonances) +# force D0->Kpi; Dc->Kpipi; Ds->phipi,phi->KK +# Also make Upsilon decay to only B pairs without mixing, +# add make the continuum virtual photon (vpho) go to ccbar +# (quark #4). +# +# This was meant to be used in either continuum or Upsilon(4S) +# generation to study the plain phase space of the Lambda_c +# decay to p K pi, and the distribution of D mesons in events +# with Lambda_c. The easiest D modes to reconstruct are forced. +# +# Only one Lambda_c per event was wanted, since all decays forced to pKpi, +# and it is unlikely that one ever wanted events with 2 Lambda_c, both +# going to p K pi. +# +# The filter then can ask for a Lambda_c+ or an anti-Lambda_c-. If +# mixing was allowed, then you would get events with 2 Lambda_c+s +# if one B mixed and both Bs decayed to Lambda_c. +# +# AUTHOR: Chris Roat croat@stanford.edu + +# +# Decay 4S with no mixing, equal amounts of B+B- and B0B0bar +# +Decay Upsilon(4S) +0.50000 B+ B- VSS; +0.50000 B0 anti-B0 VSS; +Enddecay + +# +# Force the vpho fragmentation to produce a ccbar pair +# +Decay vpho +1.0 JSCONT 4; +Enddecay + +# +# Force all Lambda_c decays to p K pi, using phase space +# + +Decay Lambda_c+ +1.000 p+ K- pi+ PHSP; +Enddecay + +CDecay anti-Lambda_c- + + +# D decay distributions are identical to DECAY.DEC + +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +Decay D+ +1.000 K- pi+ pi+ D_DALITZ; +Enddecay + +CDecay D- + + +Decay D0 +1.000 K- pi+ PHSP; +Enddecay + +CDecay anti-D0 + +Alias myphi phi + +Decay D_s+ +1.000 myphi pi+ SVS; +Enddecay + +Decay D_s- +1.000 myphi pi- SVS; +Enddecay + +Decay myphi +1.000 K+ K- VSS; +Enddecay + + +End diff --git a/BaBar_2014/N50_Xi1530_Lambda0_K0.dec b/BaBar_2014/N50_Xi1530_Lambda0_K0.dec new file mode 100644 index 0000000..0c78198 --- /dev/null +++ b/BaBar_2014/N50_Xi1530_Lambda0_K0.dec @@ -0,0 +1,146 @@ +############################################################################### +# # +# continuum production: +# +# Xi*(1530) (AKA) pentaquark state +# Xi*(1530) -> Lambda0 K_S0 +# All particles are decayed isotropically # +# # +# Nicolas Berger 29/06/04 +# # +############################################################################### +# + +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias myK_S0 K_S0 + +Particle Xi*0 1.650 0.001 +Particle anti-Xi*0 1.650 0.001 + +ChangeMassMin anti-Xi*0 1.5 +ChangeMassMin Xi*0 1.5 + +ChangeMassMax anti-Xi*0 2.5 +ChangeMassMax Xi*0 2.5 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Xi*0 +1.000 myLambda0 myK_S0 PHSP; +Enddecay + +## +Decay anti-Xi*0 +1.000 myanti-Lambda0 myK_S0 PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +## +Decay myK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +############ + +# Charm Baryons +# +Decay Lambda_c+ +0.01800 e+ nu_e Lambda0 JETSET 42; +0.00500 e+ nu_e Sigma0 JETSET 42; +0.00500 e+ nu_e Sigma*0 JETSET 42; +0.00300 e+ nu_e n0 JETSET 42; +0.00200 e+ nu_e Delta0 JETSET 42; +0.00600 e+ nu_e p+ pi- JETSET 42; +0.00600 e+ nu_e n0 pi0 JETSET 42; +0.01800 mu+ nu_mu Lambda0 JETSET 42; +0.00500 mu+ nu_mu Sigma0 JETSET 42; +0.00500 mu+ nu_mu Sigma*0 JETSET 42; +0.00300 mu+ nu_mu n0 JETSET 42; +0.00200 mu+ nu_mu Delta0 JETSET 42; +0.00600 mu+ nu_mu p+ pi- JETSET 42; +0.00600 mu+ nu_mu n0 pi0 JETSET 42; +0.00660 Delta++ K- JETSET 0; +0.02500 Delta++ K*- JETSET 0; +0.02300 p+ anti-K0 JETSET 0; +0.04000 p+ anti-K*0 JETSET 0; +0.00500 Delta+ anti-K0 JETSET 0; +0.00500 Delta+ anti-K*0 JETSET 0; +0.00580 Lambda0 pi+ JETSET 0; +0.00500 Lambda0 rho+ JETSET 0; +0.00550 Sigma0 pi+ JETSET 0; +0.00400 Sigma0 rho+ JETSET 0; +0.00400 Sigma*0 pi+ JETSET 0; +0.00400 Sigma*0 rho+ JETSET 0; +0.00400 Sigma+ pi0 JETSET 0; +0.00200 Sigma+ eta JETSET 0; +0.00200 Sigma+ eta' JETSET 0; +0.00400 Sigma+ rho0 JETSET 0; +0.00400 Sigma+ omega JETSET 0; +0.00300 Sigma*+ pi0 JETSET 0; +0.00200 Sigma*+ eta JETSET 0; +0.00300 Sigma*+ rho0 JETSET 0; +0.00300 Sigma*+ omega JETSET 0; +0.00200 Xi0 K+ JETSET 0; +0.00200 Xi0 K*+ JETSET 0; +0.00100 Delta++ pi- JETSET 0; +0.00100 Delta++ rho- JETSET 0; +0.00200 p+ pi0 JETSET 0; +0.00100 p+ eta JETSET 0; +0.00100 p+ eta' JETSET 0; +0.00200 p+ rho0 JETSET 0; +0.00200 p+ omega JETSET 0; +0.00130 p+ phi JETSET 0; +0.00180 p+ f_0 JETSET 0; +0.00100 Delta+ pi0 JETSET 0; +0.00100 Delta+ eta JETSET 0; +0.00100 Delta+ eta' JETSET 0; +0.00100 Delta+ rho0 JETSET 0; +0.00100 Delta+ omega JETSET 0; +0.00300 n0 pi+ JETSET 0; +0.00300 n0 rho+ JETSET 0; +0.00300 Delta0 pi+ JETSET 0; +0.00300 Delta0 rho+ JETSET 0; +0.00500 Lambda0 K+ JETSET 0; +0.00500 Lambda0 K*+ JETSET 0; +0.00200 Sigma0 K+ JETSET 0; +0.00200 Sigma0 K*+ JETSET 0; +0.00100 Sigma*0 K+ JETSET 0; +0.00100 Sigma*0 K*+ JETSET 0; +0.00200 Sigma+ K0 JETSET 0; +0.00200 Sigma+ K*0 JETSET 0; +0.00100 Sigma*+ K0 JETSET 0; +0.00100 Sigma*+ K*0 JETSET 0; +0.13000 u anti-d d su_0 JETSET 13; +0.05700 u anti-d d su_1 JETSET 13; +0.03500 u anti-s d su_0 JETSET 13; +0.03500 u anti-d d ud_0 JETSET 13; +0.09500 s uu_1 JETSET 13; +0.14000 u su_0 JETSET 13; +0.14000 u su_1 JETSET 13; +0.03000 d uu_1 JETSET 13; +0.01500 u ud_0 JETSET 13; +0.01500 u ud_1 JETSET 13; +Enddecay +CDecay anti-Lambda_c- +# + +End + + diff --git a/BaBar_2014/N5p_Xi1530_Lambda0_Kp.dec b/BaBar_2014/N5p_Xi1530_Lambda0_Kp.dec new file mode 100644 index 0000000..1093f46 --- /dev/null +++ b/BaBar_2014/N5p_Xi1530_Lambda0_Kp.dec @@ -0,0 +1,57 @@ +############################################################################### +# # +# continuum production: +# +# Xi*(1530) (AKA) pentaquark state +# Xi*(1530) -> Lambda0 K+ +# All particles are decayed isotropically # +# # +# Nicolas Berger 29/06/04 +# # +############################################################################### +# + +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Xi*- 1.650 0.001 +Particle anti-Xi*+ 1.650 0.001 + + +ChangeMassMin anti-Xi*+ 1.5 +ChangeMassMin Xi*- 1.5 + +ChangeMassMax anti-Xi*+ 2.5 +ChangeMassMax Xi*- 2.5 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Xi*- +1.000 myanti-Lambda0 K- PHSP; +Enddecay + +## +Decay anti-Xi*+ +1.000 myLambda0 K+ PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/None.dec b/BaBar_2014/None.dec new file mode 100644 index 0000000..1c263e7 --- /dev/null +++ b/BaBar_2014/None.dec @@ -0,0 +1,8 @@ +# +# This is an empty decay file. The production system +# allways requires a user decay file and this file can +# be used when generating generic decays. +# +# Contact: Anders Ryd (ryd@slac.stanford.edu) +# +End diff --git a/BaBar_2014/PhiGamma.dec b/BaBar_2014/PhiGamma.dec new file mode 100644 index 0000000..70dd630 --- /dev/null +++ b/BaBar_2014/PhiGamma.dec @@ -0,0 +1,16 @@ +############################################################ +# # +# Decay: e+ e- -> Phi Gamma # +# Phi -> all channels # +# # +# # +# Author: V. Brigljevic # +# Created: 12/January/2000 # +############################################################ + +Decay vpho +1.00 phi gamma VECTORISR 0.9 0.9; +Enddecay + +End + diff --git a/BaBar_2014/PhiGamma_phiKLKS.dec b/BaBar_2014/PhiGamma_phiKLKS.dec new file mode 100644 index 0000000..7ab16c3 --- /dev/null +++ b/BaBar_2014/PhiGamma_phiKLKS.dec @@ -0,0 +1,21 @@ +############################################################ +# # +# Decay: e+ e- -> Phi Gamma # +# | # +# --> Kshort + Klong # +# # +# # +# Author: Dennis Wright # +# Created: 5 May 2002 # +############################################################ +# +Decay vpho +1.00 phi gamma VECTORISR 0.9 0.9; +Enddecay + +Decay phi +1.00 K_S0 K_L0 PHSP; +Enddecay + +End + diff --git a/BaBar_2014/Psi2SJpsiLL.dec b/BaBar_2014/Psi2SJpsiLL.dec new file mode 100644 index 0000000..f037fd9 --- /dev/null +++ b/BaBar_2014/Psi2SJpsiLL.dec @@ -0,0 +1,31 @@ +############################################ +# psi2s # +# | # +# | # +# |-->mu+mu-/e+e- (30%) # +# | # +# |-->J/psi pi+pi- (70%) # +# | # +# |-->mu+mu-/e+e- # +# # +# + cc # +# # +# Author: E. Varnes 26/5/00 # +############################################ +# +Alias MyJ/psi J/psi +# +Decay psi(2S) +0.700 MyJ/psi pi+ pi- VVPIPI; +0.1500 e+ e- PHOTOS VLL; +0.1500 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +End + + + diff --git a/BaBar_2014/Psi2StoJPsiPi0Pi0_inc.dec b/BaBar_2014/Psi2StoJPsiPi0Pi0_inc.dec new file mode 100644 index 0000000..2dea84a --- /dev/null +++ b/BaBar_2014/Psi2StoJPsiPi0Pi0_inc.dec @@ -0,0 +1,26 @@ +##################################################### +# Psi2S # +# | # +# |-->J/psi pi0 pi0 [100% (VVPIPI)] # +# | # +# |-->mu+mu-/e+e- [50%/50% (PHOTOS VLL)] # +# # +# # +# Author: S.Passaggio 06/02/01 # +# (from analogous decay file by E.Varnes) # +##################################################### +# +Alias MyJ/psi J/psi +# +Decay psi(2S) +1.000 MyJ/psi pi0 pi0 VVPIPI; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +End + + + diff --git a/BaBar_2014/Sigma5_Xi1530.dec b/BaBar_2014/Sigma5_Xi1530.dec new file mode 100644 index 0000000..ca46c2f --- /dev/null +++ b/BaBar_2014/Sigma5_Xi1530.dec @@ -0,0 +1,150 @@ +############################################################################### +# # +# continuum production: +# +# Sigma0 (AKA) pentaquark state +# Sigma_5^0 -> Xi- k+ +# All particles are decayed isotrokcally # +# # +# Valerie Halyo Jan 1 04 +# # +############################################################################### +# + +Alias myXi- Xi- +Alias myanti-Xi+ anti-Xi+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Xi*0 1.862 0.001 +Particle anti-Xi*0 1.862 0.001 + + +ChangeMassMin anti-Xi*0 1.5 +ChangeMassMin Xi*0 1.5 + +ChangeMassMax anti-Xi*0 2.5 +ChangeMassMax Xi*0 2.5 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay anti-Xi*0 +1.000 myanti-Xi+ K- PHSP; +Enddecay + +## +Decay Xi*0 +1.000 myXi- K+ PHSP; +Enddecay + +## +Decay myanti-Xi+ +1.000 myanti-Lambda0 pi+ PHSP; +Enddecay + +## +Decay myXi- +1.000 myLambda0 pi- PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +############ + +# Charm Baryons +# +Decay Lambda_c+ +0.01800 e+ nu_e Lambda0 JETSET 42; +0.00500 e+ nu_e Sigma0 JETSET 42; +0.00500 e+ nu_e Sigma*0 JETSET 42; +0.00300 e+ nu_e n0 JETSET 42; +0.00200 e+ nu_e Delta0 JETSET 42; +0.00600 e+ nu_e p+ pi- JETSET 42; +0.00600 e+ nu_e n0 pi0 JETSET 42; +0.01800 mu+ nu_mu Lambda0 JETSET 42; +0.00500 mu+ nu_mu Sigma0 JETSET 42; +0.00500 mu+ nu_mu Sigma*0 JETSET 42; +0.00300 mu+ nu_mu n0 JETSET 42; +0.00200 mu+ nu_mu Delta0 JETSET 42; +0.00600 mu+ nu_mu p+ pi- JETSET 42; +0.00600 mu+ nu_mu n0 pi0 JETSET 42; +0.02300 p+ anti-K0 JETSET 0; +0.04000 p+ anti-K*0 JETSET 0; +0.00500 Delta+ anti-K0 JETSET 0; +0.00500 Delta+ anti-K*0 JETSET 0; +0.00580 Lambda0 pi+ JETSET 0; +0.00500 Lambda0 rho+ JETSET 0; +0.00550 Sigma0 pi+ JETSET 0; +0.00400 Sigma0 rho+ JETSET 0; +0.00400 Sigma*0 pi+ JETSET 0; +0.00400 Sigma*0 rho+ JETSET 0; +0.00400 Sigma+ pi0 JETSET 0; +0.00200 Sigma+ eta JETSET 0; +0.00200 Sigma+ eta' JETSET 0; +0.00400 Sigma+ rho0 JETSET 0; +0.00400 Sigma+ omega JETSET 0; +0.00300 Sigma*+ pi0 JETSET 0; +0.00200 Sigma*+ eta JETSET 0; +0.00300 Sigma*+ rho0 JETSET 0; +0.00300 Sigma*+ omega JETSET 0; +0.00200 Xi0 K+ JETSET 0; +0.00200 Xi0 K*+ JETSET 0; +0.00000 Xi*0 K+ JETSET 0; +0.00200 p+ pi0 JETSET 0; +0.00100 p+ eta JETSET 0; +0.00100 p+ eta' JETSET 0; +0.00200 p+ rho0 JETSET 0; +0.00200 p+ omega JETSET 0; +0.00130 p+ phi JETSET 0; +0.00180 p+ f_0 JETSET 0; +0.00100 Delta+ pi0 JETSET 0; +0.00100 Delta+ eta JETSET 0; +0.00100 Delta+ eta' JETSET 0; +0.00100 Delta+ rho0 JETSET 0; +0.00100 Delta+ omega JETSET 0; +0.00300 n0 pi+ JETSET 0; +0.00300 n0 rho+ JETSET 0; +0.00300 Delta0 pi+ JETSET 0; +0.00300 Delta0 rho+ JETSET 0; +0.00500 Lambda0 K+ JETSET 0; +0.00500 Lambda0 K*+ JETSET 0; +0.00200 Sigma0 K+ JETSET 0; +0.00200 Sigma0 K*+ JETSET 0; +0.00100 Sigma*0 K+ JETSET 0; +0.00100 Sigma*0 K*+ JETSET 0; +0.00200 Sigma+ K0 JETSET 0; +0.00200 Sigma+ K*0 JETSET 0; +0.00100 Sigma*+ K0 JETSET 0; +0.00100 Sigma*+ K*0 JETSET 0; +0.13000 u anti-d d su_0 JETSET 13; +0.05700 u anti-d d su_1 JETSET 13; +0.03500 u anti-s d su_0 JETSET 13; +0.03500 u anti-d d ud_0 JETSET 13; +0.09500 s uu_1 JETSET 13; +0.14000 u su_0 JETSET 13; +0.14000 u su_1 JETSET 13; +0.03000 d uu_1 JETSET 13; +0.01500 u ud_0 JETSET 13; +0.01500 u ud_1 JETSET 13; +Enddecay +CDecay anti-Lambda_c- +# + +End + + diff --git a/BaBar_2014/SingleAntiprotons.dec b/BaBar_2014/SingleAntiprotons.dec new file mode 100644 index 0000000..44f4691 --- /dev/null +++ b/BaBar_2014/SingleAntiprotons.dec @@ -0,0 +1,7 @@ +# Single particle antiprotons uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 anti-p- SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SingleElectrons.dec b/BaBar_2014/SingleElectrons.dec new file mode 100644 index 0000000..79d1c39 --- /dev/null +++ b/BaBar_2014/SingleElectrons.dec @@ -0,0 +1,7 @@ +# Single particle electrons uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.0 e- SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SingleKLong.dec b/BaBar_2014/SingleKLong.dec new file mode 100644 index 0000000..9a41816 --- /dev/null +++ b/BaBar_2014/SingleKLong.dec @@ -0,0 +1,7 @@ +# Single particle K0 Long uniform in cos theta in +# the centre of mass frame between 0.02 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 K_L0 SINGLE 0.02 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SingleKMinus.dec b/BaBar_2014/SingleKMinus.dec new file mode 100644 index 0000000..ac36d9c --- /dev/null +++ b/BaBar_2014/SingleKMinus.dec @@ -0,0 +1,7 @@ +# Single particle K minus uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 K- SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SingleKPlus.dec b/BaBar_2014/SingleKPlus.dec new file mode 100644 index 0000000..6e6f1b5 --- /dev/null +++ b/BaBar_2014/SingleKPlus.dec @@ -0,0 +1,7 @@ +# Single particle K plus uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 K+ SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SingleMuMinus.dec b/BaBar_2014/SingleMuMinus.dec new file mode 100644 index 0000000..46cdcd2 --- /dev/null +++ b/BaBar_2014/SingleMuMinus.dec @@ -0,0 +1,7 @@ +# Single particle mu- uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 mu- SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SingleMuPlus.dec b/BaBar_2014/SingleMuPlus.dec new file mode 100644 index 0000000..d81c518 --- /dev/null +++ b/BaBar_2014/SingleMuPlus.dec @@ -0,0 +1,7 @@ +# Single particle mu+ uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 mu+ SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SinglePhotons.dec b/BaBar_2014/SinglePhotons.dec new file mode 100644 index 0000000..679ad4a --- /dev/null +++ b/BaBar_2014/SinglePhotons.dec @@ -0,0 +1,7 @@ +# Single particle photons uniform in cos theta in +# the centre of mass frame between 0.02 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 gamma SINGLE 0.02 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SinglePi0.dec b/BaBar_2014/SinglePi0.dec new file mode 100644 index 0000000..b7f144f --- /dev/null +++ b/BaBar_2014/SinglePi0.dec @@ -0,0 +1,7 @@ +# Single particle pi0 uniform in cos theta in +# the centre of mass frame between 1.0 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 pi0 SINGLE 1.0 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SinglePiMinus.dec b/BaBar_2014/SinglePiMinus.dec new file mode 100644 index 0000000..8480264 --- /dev/null +++ b/BaBar_2014/SinglePiMinus.dec @@ -0,0 +1,7 @@ +# Single particle pi- uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 pi- SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SinglePiPlus.dec b/BaBar_2014/SinglePiPlus.dec new file mode 100644 index 0000000..7e433b5 --- /dev/null +++ b/BaBar_2014/SinglePiPlus.dec @@ -0,0 +1,7 @@ +# Single particle pi+ uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 pi+ SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SinglePositrons.dec b/BaBar_2014/SinglePositrons.dec new file mode 100644 index 0000000..edc200d --- /dev/null +++ b/BaBar_2014/SinglePositrons.dec @@ -0,0 +1,7 @@ +# Single particle positrons uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 e+ SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/SingleProtons.dec b/BaBar_2014/SingleProtons.dec new file mode 100644 index 0000000..11c7d6d --- /dev/null +++ b/BaBar_2014/SingleProtons.dec @@ -0,0 +1,7 @@ +# Single particle protons uniform in cos theta in +# the centre of mass frame between 0.05 and 4.5 GeV +# +Decay Upsilon(4S) +1.000 p+ SINGLE 0.05 4.5 -1.0 1.0 0.0 6.283185; +Enddecay +End diff --git a/BaBar_2014/Single_Jpsi.dec b/BaBar_2014/Single_Jpsi.dec new file mode 100644 index 0000000..a743e7d --- /dev/null +++ b/BaBar_2014/Single_Jpsi.dec @@ -0,0 +1,17 @@ +# Single particle J/psi uniform in cos theta in +# the centre of mass frame between 0.0 and 4.0 GeV +# +# Gerhard Raven (Gerhard.Raven@slac.stanford.edu) +# +Alias MyJpsi J/psi +# +Decay Upsilon(4S) +1.000 MyJpsi SINGLE 0.0 4.0 ; +Enddecay +# +Decay MyJpsi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +End diff --git a/BaBar_2014/Single_Kspm.dec b/BaBar_2014/Single_Kspm.dec new file mode 100644 index 0000000..91afdcd --- /dev/null +++ b/BaBar_2014/Single_Kspm.dec @@ -0,0 +1,16 @@ +# Single particle Ks uniform in cos theta in +# the centre of mass frame between 0.0 and 4.0 GeV +# +# Gerhard Raven (Gerhard.Raven@slac.stanford.edu) +# +Alias MyK_S0 K_S0 +# +Decay Upsilon(4S) +1.000 MyK_S0 SINGLE 0.0 4.0 ; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/TagB0Dsp.dec b/BaBar_2014/TagB0Dsp.dec new file mode 100644 index 0000000..00a474c --- /dev/null +++ b/BaBar_2014/TagB0Dsp.dec @@ -0,0 +1,114 @@ +################################################### +# # +# Decay: B0 -> Ds(*)+ X anti-B0->Pi Pi # +# # +# Comments: Cornelius training NO mixing # +# Ds*-->Ds g 100%; Ds-->X # +# # +# Author: G. Sciolla # +# Created: May 16 2002 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_s+ D_s+ +Alias MyD_s*+ D_s*+ +# +Decay Upsilon(4S) +1.000 MyB0 MyB0B VSS; +Enddecay +# +Decay MyB0B +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyB0 +# +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D- MyD_s+ PHSP; +0.0106 D*- MyD_s+ SVS; +0.0074 MyD_s*+ D- SVS; +0.0141 MyD_s*+ D*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1- MyD_s+ SVS; +0.0020 D'_1- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1- MyD_s+ SVS; +0.0040 D_1- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*- MyD_s+ STS; +0.0140 D_2*- MyD_s*+ PHSP; +# +0.0030 MyD_s+ D- pi0 PHSP; +0.0060 MyD_s+ anti-D0 pi- PHSP; +0.0030 MyD_s*+ D- pi0 PHSP; +0.0060 MyD_s*+ anti-D0 pi- PHSP; +0.0050 MyD_s+ D- pi- pi+ PHSP; +0.0037 MyD_s+ D- pi0 pi0 PHSP; +0.0037 MyD_s+ anti-D0 pi- pi0 PHSP; +0.0050 MyD_s*+ D- pi- pi+ PHSP; +0.0037 MyD_s*+ D- pi0 pi0 PHSP; +0.0037 MyD_s*+ anti-D0 pi- pi0 PHSP; +Enddecay +# +Decay MyD_s*+ +1.0 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +0.0360 phi pi+ SVS; +0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0230 phi pi+ pi0 PHSP; +0.0003 phi K+ SVS; +0.0170 eta pi+ PHSP; +0.0390 eta' pi+ PHSP; +0.0028 omega pi+ SVS; +0.0004 rho0 pi+ SVS; +0.0020 rho+ pi0 SVS; +0.0010 pi+ pi0 PHSP; +0.0180 f_0 pi+ PHSP; +0.0023 f_2 pi+ PHSP; +0.1080 rho+ eta SVS; +0.1010 rho+ eta' SVS; +0.0040 pi+ pi- pi+ PHSP; +0.0040 pi+ pi0 pi0 PHSP; +0.0230 eta pi+ pi0 PHSP; +0.0230 eta' pi+ pi0 PHSP; +0.0118 phi pi+ pi- pi+ PHSP; +0.0100 phi pi+ pi0 pi0 PHSP; +0.0100 eta pi+ pi- pi+ PHSP; +0.0100 eta pi+ pi0 pi0 PHSP; +# +0.0360 anti-K0 K+ PHSP; +0.0330 anti-K*0 K+ SVS; +0.0430 K*+ anti-K0 SVS; +0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 anti-K0 K+ pi0 PHSP; +0.0120 anti-K*0 K+ pi0 PHSP; +0.0120 K*+ anti-K0 pi0 PHSP; +0.0139 anti-K*0 K*+ pi0 PHSP; +# +0.0090 K+ K- pi+ PHSP; +0.0050 anti-K0 K+ pi0 PHSP; +0.0020 anti-K0 K+ pi+ pi- PHSP; +0.0020 anti-K0 K+ pi0 pi0 PHSP; +0.0083 K+ K- pi+ pi- pi+ PHSP; + +0.0002 eta K+ PHSP; +0.0002 eta' K+ PHSP; +0.0002 eta K+ pi0 PHSP; +0.0002 eta K+ pi+ pi- PHSP; +0.0002 eta' K+ pi0 PHSP; +0.0002 eta' K+ pi+ pi- PHSP; +0.0002 K+ K- K+ PHSP; +0.0040 K0 pi+ PHSP; +0.0015 rho+ K0 SVS; +0.0015 rho0 K+ SVS; +0.0010 K0 pi+ pi0 PHSP; +0.0025 a_1+ K0 SVS; +0.0065 K*0 pi+ SVS; +0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 K*0 pi+ pi0 PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/TagB0DspToKstar0Kp.dec b/BaBar_2014/TagB0DspToKstar0Kp.dec new file mode 100644 index 0000000..e8cfcd6 --- /dev/null +++ b/BaBar_2014/TagB0DspToKstar0Kp.dec @@ -0,0 +1,68 @@ +################################################### +# # +# Decay: B0 -> Ds(*)+ X anti-B0->Pi Pi # +# # +# Comments: Cornelius training NO mixing # +# Ds*-->Ds g 100%; Ds-->K*0 K+ # +# # +# Author: G. Sciolla # +# Created: May 16 2002 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_s+ D_s+ +Alias MyD_s*+ D_s*+ +Alias Myanti-K*0 anti-K*0 +# +Decay Upsilon(4S) +1.000 MyB0 MyB0B VSS; +Enddecay +# +Decay MyB0B +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyB0 +# +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D- MyD_s+ PHSP; +0.0106 D*- MyD_s+ SVS; +0.0074 MyD_s*+ D- SVS; +0.0141 MyD_s*+ D*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1- MyD_s+ SVS; +0.0020 D'_1- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1- MyD_s+ SVS; +0.0040 D_1- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*- MyD_s+ STS; +0.0140 D_2*- MyD_s*+ PHSP; +# +0.0030 MyD_s+ D- pi0 PHSP; +0.0060 MyD_s+ anti-D0 pi- PHSP; +0.0030 MyD_s*+ D- pi0 PHSP; +0.0060 MyD_s*+ anti-D0 pi- PHSP; +0.0050 MyD_s+ D- pi- pi+ PHSP; +0.0037 MyD_s+ D- pi0 pi0 PHSP; +0.0037 MyD_s+ anti-D0 pi- pi0 PHSP; +0.0050 MyD_s*+ D- pi- pi+ PHSP; +0.0037 MyD_s*+ D- pi0 pi0 PHSP; +0.0037 MyD_s*+ anti-D0 pi- pi0 PHSP; +Enddecay +# +Decay MyD_s*+ +1.0 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +# +0.0330 Myanti-K*0 K+ SVS; +# +Enddecay +Decay Myanti-K*0 +0.6657 K- pi+ VSS; +Enddecay + +# +End + diff --git a/BaBar_2014/TagB0DspToPhiPi.dec b/BaBar_2014/TagB0DspToPhiPi.dec new file mode 100644 index 0000000..dfebf21 --- /dev/null +++ b/BaBar_2014/TagB0DspToPhiPi.dec @@ -0,0 +1,66 @@ +################################################### +# # +# Decay: B0 -> Ds(*)+ X anti-B0->Pi Pi # +# # +# Comments: Cornelius training NO mixing # +# Ds*-->Ds g 100%; Ds-->Phi Pi; Phi->K-K+ # +# # +# Author: G. Sciolla # +# Created: May 16 2002 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_s+ D_s+ +Alias MyD_s*+ D_s*+ +Alias Myphi phi +# +Decay Upsilon(4S) +1.000 MyB0 MyB0B VSS; +Enddecay +# +Decay MyB0B +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyB0 +# +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D- MyD_s+ PHSP; +0.0106 D*- MyD_s+ SVS; +0.0074 MyD_s*+ D- SVS; +0.0141 MyD_s*+ D*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1- MyD_s+ SVS; +0.0020 D'_1- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1- MyD_s+ SVS; +0.0040 D_1- MyD_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*- MyD_s+ STS; +0.0140 D_2*- MyD_s*+ PHSP; +# +0.0030 MyD_s+ D- pi0 PHSP; +0.0060 MyD_s+ anti-D0 pi- PHSP; +0.0030 MyD_s*+ D- pi0 PHSP; +0.0060 MyD_s*+ anti-D0 pi- PHSP; +0.0050 MyD_s+ D- pi- pi+ PHSP; +0.0037 MyD_s+ D- pi0 pi0 PHSP; +0.0037 MyD_s+ anti-D0 pi- pi0 PHSP; +0.0050 MyD_s*+ D- pi- pi+ PHSP; +0.0037 MyD_s*+ D- pi0 pi0 PHSP; +0.0037 MyD_s*+ anti-D0 pi- pi0 PHSP; +Enddecay +# +Decay MyD_s*+ +1.0 MyD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s+ +1.0 Myphi pi+ SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/TagB0barDsm.dec b/BaBar_2014/TagB0barDsm.dec new file mode 100644 index 0000000..2f81a79 --- /dev/null +++ b/BaBar_2014/TagB0barDsm.dec @@ -0,0 +1,124 @@ +################################################### +# # +# Decay: B0 -> Ds(*)+ X B0->Pi Pi # +# # +# Comments: Cornelius training NO mixing # +# Ds*-->Ds g 100%; Ds-->X # +# # +# Author: G. Sciolla # +# Created: May 16 2002 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +# +Decay Upsilon(4S) +1.000 MyB0 MyB0B VSS; +Enddecay +# +Decay MyB0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyB0B +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D+ MyD_s- PHSP; +0.0106 D*+ MyD_s- SVS; +0.0074 MyD_s*- D+ SVS; +0.0141 D*+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1+ MyD_s- SVS; +0.0020 D'_1+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1+ MyD_s- SVS; +0.0040 D_1+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*+ MyD_s- STS; +0.0140 D_2*+ MyD_s*- PHSP; +# +0.0030 MyD_s- D+ pi0 PHSP; +0.0060 MyD_s- D0 pi+ PHSP; +0.0030 MyD_s*- D+ pi0 PHSP; +0.0060 MyD_s*- D0 pi+ PHSP; +0.0050 MyD_s- D+ pi+ pi- PHSP; +0.0037 MyD_s- D+ pi0 pi0 PHSP; +0.0037 MyD_s- D0 pi+ pi0 PHSP; +0.0050 MyD_s*- D+ pi+ pi- PHSP; +0.0037 MyD_s*- D+ pi0 pi0 PHSP; +0.0037 MyD_s*- D0 pi+ pi0 PHSP; +Enddecay +# +Decay MyD_s*- +1.0 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s- +0.0200 phi e- anti-nu_e PHOTOS ISGW2; +0.0260 eta e- anti-nu_e PHOTOS ISGW2; +0.0089 eta' e- anti-nu_e PHOTOS ISGW2; +0.0027 K0 e- anti-nu_e PHOTOS ISGW2; +0.0010 K*0 e- anti-nu_e PHOTOS ISGW2; +0.0200 phi mu- anti-nu_mu PHOTOS ISGW2; +0.0260 eta mu- anti-nu_mu PHOTOS ISGW2; +0.0089 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.0027 K0 mu- anti-nu_mu PHOTOS ISGW2; +0.0010 K*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0046 mu- anti-nu_mu PHOTOS SLN; +0.0700 tau- anti-nu_tau SLN; +0.0360 phi pi- SVS; +0.0170 eta pi- PHSP; +0.0390 eta' pi- PHSP; +0.0028 omega pi- SVS; +0.0004 rho0 pi- SVS; +0.0020 rho- pi0 SVS; +0.0010 pi- pi0 PHSP; +0.0180 f_0 pi- PHSP; +0.0023 f_2 pi- PHSP; +0.0670 phi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.1080 rho- eta SVS; +0.1010 rho- eta' SVS; +0.0040 pi- pi- pi+ PHSP; +0.0040 pi- pi0 pi0 PHSP; +0.0230 phi pi- pi0 PHSP; +0.0230 eta pi- pi0 PHSP; +0.0230 eta' pi- pi0 PHSP; +0.0118 phi pi- pi- pi+ PHSP; +0.0100 phi pi- pi0 pi0 PHSP; +0.0100 eta pi- pi- pi+ PHSP; +0.0100 eta pi- pi0 pi0 PHSP; +# +0.0360 K0 K- PHSP; +0.0330 K*0 K- SVS; +0.0430 K*- K0 SVS; +0.0580 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0120 K0 K- pi0 PHSP; +0.0120 K*0 K- pi0 PHSP; +0.0120 K*- K0 pi0 PHSP; +0.0139 K*0 K*- pi0 PHSP; +# +0.0090 K+ K- pi- PHSP; +0.0050 K0 K- pi0 PHSP; +0.0020 K0 K- pi+ pi- PHSP; +0.0020 K0 K- pi0 pi0 PHSP; +0.0083 K- K+ pi- pi+ pi- PHSP; +0.0003 phi K- SVS; +0.0002 eta K- PHSP; +0.0002 eta' K- PHSP; +0.0002 eta K- pi0 PHSP; +0.0002 eta K- pi+ pi- PHSP; +0.0002 eta' K- pi0 PHSP; +0.0002 eta' K- pi+ pi- PHSP; +0.0002 K- K- K+ PHSP; +0.0040 anti-K0 pi- PHSP; +0.0015 rho- anti-K0 SVS; +0.0015 rho0 K- SVS; +0.0010 anti-K0 pi- pi0 PHSP; +0.0025 a_1- anti-K0 SVS; +0.0065 anti-K*0 pi- SVS; +0.0150 anti-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0150 anti-K*0 pi- pi0 PHSP; +Enddecay + +# +End + diff --git a/BaBar_2014/TagB0barDsmToKstar0Km.dec b/BaBar_2014/TagB0barDsmToKstar0Km.dec new file mode 100644 index 0000000..98aa274 --- /dev/null +++ b/BaBar_2014/TagB0barDsmToKstar0Km.dec @@ -0,0 +1,71 @@ +################################################### +# # +# Decay: B0 -> Ds(*)+ X B0->Pi Pi # +# # +# Comments: Cornelius training NO mixing # +# Ds*-->Ds g 100%; Ds-->K*0K- # +# # +# Author: G. Sciolla # +# Created: May 16 2002 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias Myphi phi +Alias MyK*0 K*0 +# +Decay Upsilon(4S) +1.000 MyB0 MyB0B VSS; +Enddecay +# +Decay MyB0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyB0B +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D+ MyD_s- PHSP; +0.0106 D*+ MyD_s- SVS; +0.0074 MyD_s*- D+ SVS; +0.0141 D*+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1+ MyD_s- SVS; +0.0020 D'_1+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1+ MyD_s- SVS; +0.0040 D_1+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*+ MyD_s- STS; +0.0140 D_2*+ MyD_s*- PHSP; +# +0.0030 MyD_s- D+ pi0 PHSP; +0.0060 MyD_s- D0 pi+ PHSP; +0.0030 MyD_s*- D+ pi0 PHSP; +0.0060 MyD_s*- D0 pi+ PHSP; +0.0050 MyD_s- D+ pi+ pi- PHSP; +0.0037 MyD_s- D+ pi0 pi0 PHSP; +0.0037 MyD_s- D0 pi+ pi0 PHSP; +0.0050 MyD_s*- D+ pi+ pi- PHSP; +0.0037 MyD_s*- D+ pi0 pi0 PHSP; +0.0037 MyD_s*- D0 pi+ pi0 PHSP; +Enddecay +# +Decay MyD_s*- +1.0 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s- +0.0330 MyK*0 K- SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay MyK*0 +0.6657 K+ pi- VSS; +Enddecay + + +End + diff --git a/BaBar_2014/TagB0barDsmToPhiPi.dec b/BaBar_2014/TagB0barDsmToPhiPi.dec new file mode 100644 index 0000000..416d603 --- /dev/null +++ b/BaBar_2014/TagB0barDsmToPhiPi.dec @@ -0,0 +1,66 @@ +################################################### +# # +# Decay: B0 -> Ds(*)+ X B0->Pi Pi # +# # +# Comments: Cornelius training NO mixing # +# Ds*-->Ds g 100%; Ds-->X # +# # +# Author: G. Sciolla # +# Created: May 16 2002 # +################################################### +# +Alias MyB0B anti-B0 +Alias MyB0 B0 +Alias MyD_s- D_s- +Alias MyD_s*- D_s*- +Alias Myphi phi +# +Decay Upsilon(4S) +1.000 MyB0 MyB0B VSS; +Enddecay +# +Decay MyB0 +1.0000 pi+ pi- PHSP; +Enddecay +# +Decay MyB0B +# b -> c (sc=) --> D Ds X Sum = 10% +# +0.0074 D+ MyD_s- PHSP; +0.0106 D*+ MyD_s- SVS; +0.0074 MyD_s*- D+ SVS; +0.0141 D*+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0010 D'_1+ MyD_s- SVS; +0.0020 D'_1+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0020 D_1+ MyD_s- SVS; +0.0040 D_1+ MyD_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; +0.0070 D_2*+ MyD_s- STS; +0.0140 D_2*+ MyD_s*- PHSP; +# +0.0030 MyD_s- D+ pi0 PHSP; +0.0060 MyD_s- D0 pi+ PHSP; +0.0030 MyD_s*- D+ pi0 PHSP; +0.0060 MyD_s*- D0 pi+ PHSP; +0.0050 MyD_s- D+ pi+ pi- PHSP; +0.0037 MyD_s- D+ pi0 pi0 PHSP; +0.0037 MyD_s- D0 pi+ pi0 PHSP; +0.0050 MyD_s*- D+ pi+ pi- PHSP; +0.0037 MyD_s*- D+ pi0 pi0 PHSP; +0.0037 MyD_s*- D0 pi+ pi0 PHSP; +Enddecay +# +Decay MyD_s*- +1.0 MyD_s- gamma VSP_PWAVE; +Enddecay +# +Decay MyD_s- +0.0360 Myphi pi- SVS; +#0.0330 K*0 K- SVS; +Enddecay +# +Decay Myphi +1.0000 K+ K- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/ThetacPq.dec b/BaBar_2014/ThetacPq.dec new file mode 100644 index 0000000..dc9f053 --- /dev/null +++ b/BaBar_2014/ThetacPq.dec @@ -0,0 +1,64 @@ + +######################################################### +# # +# Thetac(Anti-Sigma_c0) # +# D*(2010)- p+ anti-p- pi+, anti-B0 -> X # +# +-> anti-D0 pi- ( BF ) Relative # +# +-> K+ pi- ( 3.80%) 15.599% # +# +-> K+ pi- pi0 (13.1% ) 53.777% # +# +-> K+ pi- pi- pi+ ( 7.46%) 30.624% # +# Sum (24.36%) 100.000% # +# Author Valerie Halyo SLAC # +# The decay of the Pentaquark thetac # +# Mar 27 04 # +########################################################## + +# + +Alias MyD*- D*- +Alias MyD*+ D*+ +Alias Myanti-D0 anti-D0 +Alias MyD0 D0 + + +Particle Sigma_c0 3.099 0.001 +Particle anti-Sigma_c0 3.099 0.001 + +ChangeMassMin anti-Sigma_c0 2.997 +ChangeMassMin Sigma_c0 2.997 + +ChangeMassMax anti-Sigma_c0 3.4 +ChangeMassMax Sigma_c0 3.4 + +## +Decay Sigma_c0 +1.000 MyD*+ anti-p- PHSP; +Enddecay + +## +Decay anti-Sigma_c0 +1.000 MyD*- p+ PHSP; +Enddecay + + +Decay MyD*- + 1.00000 Myanti-D0 pi- VSS; +Enddecay +# +Decay MyD*+ + 1.00000 MyD0 pi+ VSS; +Enddecay +# +Decay Myanti-D0 + 0.15599 K+ pi- PHSP; + 0.53777 K+ pi- pi0 D_DALITZ; + 0.30624 K+ pi- pi- pi+ PHSP; +Enddecay +# // resonance structure in Dalitz modelled +Decay MyD0 + 0.15599 K- pi+ PHSP; + 0.53777 K- pi+ pi0 D_DALITZ; + 0.30624 K- pi+ pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Thetap_Deltap.dec b/BaBar_2014/Thetap_Deltap.dec new file mode 100644 index 0000000..263bcd6 --- /dev/null +++ b/BaBar_2014/Thetap_Deltap.dec @@ -0,0 +1,134 @@ +############################################################################### +# # +# continuum production: # +# # +# Delta+ (AKA) Theta+ pentaquark state # +# K0S p # +# All particles are decayed isotropically # +# based on Xmm_Deltapp.dec by V.Halyo # +# Jon Coleman Mar 22 04 # +# # +############################################################################### +# + +Alias myK0 K_S0 + +Particle Delta+ 1.540 0.001 +Particle anti-Delta- 1.540 0.001 + +ChangeMassMin anti-Delta- 1.436 +ChangeMassMin Delta+ 1.436 + + +ChangeMassMax anti-Delta- 1.7 +ChangeMassMax Delta+ 1.7 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Delta+ +1.000 myK0 p+ PHSP; +Enddecay + +## +Decay anti-Delta- +1.000 myK0 anti-p- PHSP; +Enddecay + +## +Decay myK0 +1.000 pi+ pi- PHSP; +Enddecay + +############ + +############ + +# Charm Baryons +# Need to define Lambda_C decay so that it doesn't crash the program: +# +Decay Lambda_c+ +0.01800 e+ nu_e Lambda0 JETSET 42; +0.00500 e+ nu_e Sigma0 JETSET 42; +0.00500 e+ nu_e Sigma*0 JETSET 42; +0.00300 e+ nu_e n0 JETSET 42; +0.00200 e+ nu_e Delta0 JETSET 42; +0.00600 e+ nu_e p+ pi- JETSET 42; +0.00600 e+ nu_e n0 pi0 JETSET 42; +0.01800 mu+ nu_mu Lambda0 JETSET 42; +0.00500 mu+ nu_mu Sigma0 JETSET 42; +0.00500 mu+ nu_mu Sigma*0 JETSET 42; +0.00300 mu+ nu_mu n0 JETSET 42; +0.00200 mu+ nu_mu Delta0 JETSET 42; +0.00600 mu+ nu_mu p+ pi- JETSET 42; +0.00600 mu+ nu_mu n0 pi0 JETSET 42; +0.02300 p+ anti-K0 JETSET 0; +0.04000 p+ anti-K*0 JETSET 0; +#0.00500 Delta+ anti-K*0 JETSET 0; +0.00580 Lambda0 pi+ JETSET 0; +0.00500 Lambda0 rho+ JETSET 0; +0.00550 Sigma0 pi+ JETSET 0; +0.00400 Sigma0 rho+ JETSET 0; +0.00400 Sigma*0 pi+ JETSET 0; +0.00400 Sigma*0 rho+ JETSET 0; +0.00400 Sigma+ pi0 JETSET 0; +0.00200 Sigma+ eta JETSET 0; +0.00200 Sigma+ eta' JETSET 0; +0.00400 Sigma+ rho0 JETSET 0; +0.00400 Sigma+ omega JETSET 0; +0.00300 Sigma*+ pi0 JETSET 0; +0.00200 Sigma*+ eta JETSET 0; +0.00300 Sigma*+ rho0 JETSET 0; +0.00300 Sigma*+ omega JETSET 0; +0.00200 Xi0 K+ JETSET 0; +0.00200 Xi0 K*+ JETSET 0; +0.00200 Xi*0 K+ JETSET 0; +0.00200 p+ pi0 JETSET 0; +0.00100 p+ eta JETSET 0; +0.00100 p+ eta' JETSET 0; +0.00200 p+ rho0 JETSET 0; +0.00200 p+ omega JETSET 0; +0.00130 p+ phi JETSET 0; +0.00180 p+ f_0 JETSET 0; +#0.00100 Delta+ pi0 JETSET 0; +#0.00100 Delta+ eta JETSET 0; +#0.00100 Delta+ eta' JETSET 0; +#0.00100 Delta+ rho0 JETSET 0; +#0.00100 Delta+ omega JETSET 0; +0.00300 n0 pi+ JETSET 0; +0.00300 n0 rho+ JETSET 0; +0.00300 Delta0 pi+ JETSET 0; +0.00300 Delta0 rho+ JETSET 0; +0.00500 Lambda0 K+ JETSET 0; +0.00500 Lambda0 K*+ JETSET 0; +0.00200 Sigma0 K+ JETSET 0; +0.00200 Sigma0 K*+ JETSET 0; +0.00100 Sigma*0 K+ JETSET 0; +0.00100 Sigma*0 K*+ JETSET 0; +0.00200 Sigma+ K0 JETSET 0; +0.00200 Sigma+ K*0 JETSET 0; +0.00100 Sigma*+ K0 JETSET 0; +0.00100 Sigma*+ K*0 JETSET 0; +0.13000 u anti-d d su_0 JETSET 13; +0.05700 u anti-d d su_1 JETSET 13; +0.03500 u anti-s d su_0 JETSET 13; +0.03500 u anti-d d ud_0 JETSET 13; +0.09500 s uu_1 JETSET 13; +0.14000 u su_0 JETSET 13; +0.14000 u su_1 JETSET 13; +0.03000 d uu_1 JETSET 13; +0.01500 u ud_0 JETSET 13; +0.01500 u ud_1 JETSET 13; +Enddecay +CDecay anti-Lambda_c- +# + +End + + diff --git a/BaBar_2014/Ups3S_gHiggsFat_tautau.dec b/BaBar_2014/Ups3S_gHiggsFat_tautau.dec new file mode 100644 index 0000000..bd0829b --- /dev/null +++ b/BaBar_2014/Ups3S_gHiggsFat_tautau.dec @@ -0,0 +1,31 @@ +############################################################ +# +# Author: A. Snyder +# Created: July 2008 +# Modified by: Arafat Gabareen Mokhtar +# : Oct/29/2008 +# +# e+e- -> Ups(3S), Ups(3S) -> gamma Higgs (A0) -> gamma tau+ tau- +# A fat Higgs +############################################################ +# +# Upsilon3S to Higgs, +Particle Higgs0 6.0 100.0 +ChangeMassMin Higgs0 2.0 +ChangeMassMax Higgs0 11.0 +Alias myX Higgs0 +# +# +Decay Upsilon(3S) +1.0000 myX gamma VSP_PWAVE; +Enddecay +# +# +Decay myX +1.0000 tau+ tau- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/Ups3S_gHiggsFatter_tautau.dec b/BaBar_2014/Ups3S_gHiggsFatter_tautau.dec new file mode 100644 index 0000000..e136dfd --- /dev/null +++ b/BaBar_2014/Ups3S_gHiggsFatter_tautau.dec @@ -0,0 +1,30 @@ +############################################################ +# +# Author: A. Snyder +# Created: July 2008 +# Modified by: Arafat Gabareen Mokhtar +# : Oct/29/2008 +# +# e+e- -> Ups(3S), Ups(3S) -> gamma Higgs (A0) -> gamma tau+ tau- +# A fat Higgs +############################################################ +# Upsilon3S to Higgs, +Particle Higgs0 6.0 100.0 +ChangeMassMin Higgs0 2.0 +ChangeMassMax Higgs0 11.0 +Alias myX Higgs0 +# +# +Decay Upsilon(3S) +1.0000 myX gamma VSP_PWAVE; +Enddecay +# +# +Decay myX +1.0000 tau+ tau- PHSP; +Enddecay +# +# +End + + diff --git a/BaBar_2014/Ups4S_Dc_5modes.dec b/BaBar_2014/Ups4S_Dc_5modes.dec new file mode 100644 index 0000000..6c604f6 --- /dev/null +++ b/BaBar_2014/Ups4S_Dc_5modes.dec @@ -0,0 +1,233 @@ +################################################### +# # +# Ups(4S) production # +# D+/- -> Ks pi, Ks pi pi0, Ks 3pi, # +# K 2pi, K 2pi pi0 # +# # +# created: D. del Re 11/07/01 # +# daniele@slac.stanford.edu # +################################################### +# +Alias my-a_1+ a_1+ +Alias my-a_1- a_1- +# +Alias my-anti-K0 anti-K0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 +# +Alias my-K*0 K*0 +Alias my-anti-K*0 anti-K*0 +# +Alias my2-K*0 K*0 +Alias my2-anti-K*0 anti-K*0 +# +Alias my-K_0*0 K_0*0 +Alias my-anti-K_0*0 anti-K_0*0 +# +Alias my-K''*0 K''*0 +Alias my-anti-K''*0 anti-K''*0 +# +Alias my-K'_10 K'_10 +Alias my-anti-K'_10 anti-K'_10 +# +Alias my2-K'_10 K'_10 +Alias my2-anti-K'_10 anti-K'_10 +# +Alias my-K*+ K*+ +Alias my-K*- K*- +# +Alias my2-K*+ K*+ +Alias my2-K*- K*- +# +# +Decay D+ +# +# +# Ks pi +0.0098 my-anti-K0 pi+ PHSP; +# +# K- pi+ pi+ +# Dalitz here, PDG modes (commented) just below +0.0900 K- pi+ pi+ D_DALITZ; +# these 4 modes below are K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ and non res +#0.0127 my-anti-K*0 pi+ SVS; +#0.0230 my-anti-K_0*0 pi+ PHSP; +#0.0037 my-anti-K''*0 pi+ SVS; +#0.0850 K- pi+ pi+ PHSP; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho+ my-anti-K0 SVS; +0.0021 anti-K_0*0N pi+ PHSP; +0.0042 my-anti-K0 pi+ pi0 PHSP; +# +# K pi+ pi+ pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 my-anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-anti-K'_10 pi+ SVS; +0.0110 K- rho+ pi+ PHSP; +0.0280 my-anti-K*0 pi0 pi+ PHSP; +0.0070 my-K*- pi+ pi+ PHSP; +0.0120 K- pi+ pi+ pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0123 my-a_1+ my-anti-K0 SVS; +0.0074 my2-anti-K'_10 pi+ SVS; +0.0048 my2-K*- pi+ pi+ PHSP; +0.0017 my-anti-K0 rho0 pi+ PHSP; +0.0027 my-anti-K0 pi+ pi+ pi- PHSP; +Enddecay +# +# +# +Decay D- +# +# +# Ks pi +0.0098 my-K0 pi- PHSP; +# +# K+ pi- pi- +# Dalitz here, PDG modes (commented) just below +0.0900 K+ pi- pi- D_DALITZ; +# these 4 modes below are K*(892)0 pi-, +# K*(1430)0 pi-, and K*(1680)0 pi- and non res +#0.0127 my-K*0 pi- SVS; +#0.0230 my-K_0*0 pi- PHSP; +#0.0037 my-K''*0 pi- SVS; +#0.0850 K+ pi- pi- PHSP; +# +# Ks pi+ pi0 +# these 3 modes below are K0 rho+, +# K*bar(892)0 pi+, Ks pi pi0 non res +0.0224 rho- my-K0 SVS; +0.0021 K_0*0N pi- PHSP; +0.0042 my-K0 pi- pi0 PHSP; +# +# K+ pi- pi- pi0 +# these 6 modes below are K*bar(892)0 rho+, K1(1400)0 pi+, K- rho+ pi+, +# K*bar(892)0 pi pi0, K*bar(892)- pi pi, Ks pi+ pi0 non res +0.0140 my-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0220 my-K'_10 pi- SVS; +0.0110 K+ rho- pi- PHSP; +0.0280 my-K*0 pi0 pi- PHSP; +0.0070 my-K*+ pi- pi- PHSP; +0.0120 K+ pi- pi- pi0 PHSP; +# +# Ks pi+ pi+ pi- +# these 5 modes are Ks a1, K1(1400)0 pi+, K*bar(892)- pi pi, +# Ks rho0 pi+, Ks pi+ pi+ pi- non res +0.0136 my-a_1- my-K0 SVS; +0.0074 my2-K'_10 pi- SVS; +0.0048 my2-K*+ pi- pi- PHSP; +0.0017 my-K0 rho0 pi- PHSP; +0.0027 my-K0 pi- pi- pi+ PHSP; +Enddecay +# +# +# +# +# Redefined modes +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay +# +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +# +Decay my2-K*0 +0.3323 my-K0 pi0 VSS; +Enddecay +# +Decay my2-anti-K*0 +0.3323 my-anti-K0 pi0 VSS; +Enddecay +# +# +Decay my-K_0*0 +0.6667 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K_0*0 +0.6667 K- pi+ PHSP; +Enddecay +# +# +Decay my-K''*0 +0.2580 K+ pi- VSS; +Enddecay +# +Decay my-anti-K''*0 +0.2580 K- pi+ VSS; +Enddecay +# +# +Decay my-K'_10 +0.6300 my-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 my-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-anti-K'_10 +0.6300 my-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3100 my-anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my2-K'_10 +0.6300 my2-K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my2-anti-K'_10 +0.6300 my2-K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +Decay my-K*+ +0.3330 K+ pi0 VSS; +Enddecay +# +Decay my-K*- +0.3330 K- pi0 VSS; +Enddecay +# +# +Decay my2-K*+ +0.6660 my-K0 pi+ VSS; +Enddecay +# +Decay my2-K*- +0.6660 my-anti-K0 pi- VSS; +Enddecay +# +# +Decay my-a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay my-a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +# +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_D0K0pipi.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_D0K0pipi.dec new file mode 100644 index 0000000..761c7d2 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_D0K0pipi.dec @@ -0,0 +1,37 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K0s pi+ pi- # +# K0s -> pi+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# the Dalitz mode below includes K*(892)+ pi- and K0 rho(770)0 resonances +0.0540 my-K0 pi- pi+ D_DALITZ; +Enddecay +# +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_D0K3pi.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_D0K3pi.dec new file mode 100644 index 0000000..bbaf85a --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_D0K3pi.dec @@ -0,0 +1,48 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ pi- pi+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-a_1- a_1- +Alias my-K*0 K*0 +Alias my-K_1+ K_1+ + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0360 my-a_1- K+ SVS; +0.0098 my-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 my-K_1+ pi- SVS; +0.0095 my-K*0 pi- pi+ PHSP; +0.0048 K+ pi- rho0 PHSP; +0.0176 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay my-K_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 my-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi- pi+ PHSP; +Enddecay +# +# +Decay my-a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_D0KK.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_D0KK.dec new file mode 100644 index 0000000..81a9fd2 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_D0KK.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ K- # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0044 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpi.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpi.dec new file mode 100644 index 0000000..724f148 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpi.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0385 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpipi0.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpipi0.dec new file mode 100644 index 0000000..3d489d0 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_D0Kpipi0.dec @@ -0,0 +1,27 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ pi- pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +# the Dalitz mode below includes K*(892)0 pi0, K*(892)+ pi- +# and K+ rho(770)- resonances. +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_D0pi0pi0.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_D0pi0pi0.dec new file mode 100644 index 0000000..a950631 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_D0pi0pi0.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> pi0 pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0009 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_D0pipi.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_D0pipi.dec new file mode 100644 index 0000000..86a81c9 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_D0pipi.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> pi+ pi- # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0015 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_Kmepnu_WS.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_Kmepnu_WS.dec new file mode 100644 index 0000000..334793e --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_Kmepnu_WS.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Upsilon(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K- e+ nu_e # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0bar anti-D0 +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K- e+ nu_e PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_Kmmupnu_WS.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_Kmmupnu_WS.dec new file mode 100644 index 0000000..6b7ef76 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_Kmmupnu_WS.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Upsilon(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K- mu+ nu_mu # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0bar anti-D0 +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_Kpemnu.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_Kpemnu.dec new file mode 100644 index 0000000..be6e403 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_Kpemnu.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Upsilon(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ e- anti-nu_e # +# # +# created: kflood nov0499 # +################################################### +# +Alias myD0bar anti-D0 +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K+ e- anti-nu_e ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_D0pi_Kpmumnu.dec b/BaBar_2014/Ups4S_Dstarm_D0pi_Kpmumnu.dec new file mode 100644 index 0000000..9209908 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_D0pi_Kpmumnu.dec @@ -0,0 +1,20 @@ +################################################### +# # +# Upsilon(4S) production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ mu- anti-nu_mu# +# # +# created: kflood nov0499 # +# Mail: KFLOOD@SLAC.STANFORD.EDU +################################################### +# +Alias myD0bar anti-D0 +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K+ mu- anti-nu_mu ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarm_Dmpi0_DmKpipi.dec b/BaBar_2014/Ups4S_Dstarm_Dmpi0_DmKpipi.dec new file mode 100644 index 0000000..3c7d428 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarm_Dmpi0_DmKpipi.dec @@ -0,0 +1,26 @@ +################################################### +# # +# Ups(4S) production # +# D*- -> D- pi0, D- -> K+ pi- pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D- D- + +# +# Vector Mesons +# +Decay D*- +0.3060 my-D- pi0 VSS; +Enddecay +# +Decay my-D- +# +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_D0K0pipi.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_D0K0pipi.dec new file mode 100644 index 0000000..530a1cd --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_D0K0pipi.dec @@ -0,0 +1,38 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D0 pi+, D0 -> K0s pi+ pi- # +# K0s -> pi+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 +Alias my-D0 D0 + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 my-anti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_D0K3pi.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_D0K3pi.dec new file mode 100644 index 0000000..daaaf49 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_D0K3pi.dec @@ -0,0 +1,48 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D0 pi+, D0 -> K- pi+ pi- pi+ # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 +Alias my-a_1+ a_1+ +Alias my-anti-K*0 anti-K*0 +Alias my-K_1- K_1- + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0360 my-a_1+ K- SVS; +0.0098 my-anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 my-K_1- pi+ SVS; +0.0095 my-anti-K*0 pi+ pi- PHSP; +0.0048 K- pi+ rho0 PHSP; +0.0176 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay my-K_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 my-anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +Enddecay +# +# +Decay my-a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_D0KK.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_D0KK.dec new file mode 100644 index 0000000..dcdedf0 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_D0KK.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D0 pi+, D0 -> K- K+ # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0044 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpi.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpi.dec new file mode 100644 index 0000000..cd4bef8 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpi.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D0 pi+, D0 -> K- pi+ # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0385 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpipi0.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpipi0.dec new file mode 100644 index 0000000..511a601 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_D0Kpipi0.dec @@ -0,0 +1,27 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D0 pi+, D0 -> K- pi+ pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# the Dalitz mode below includes K*(892)0 pi0, K*(892)- pi+ +# and K- rho(770)+ resonances. +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_D0pi0pi0.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_D0pi0pi0.dec new file mode 100644 index 0000000..56a27be --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_D0pi0pi0.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D0 pi+, D0 -> pi0 pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0009 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_D0pipi.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_D0pipi.dec new file mode 100644 index 0000000..3cd21d9 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_D0pipi.dec @@ -0,0 +1,25 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D0 pi+, D0 -> pi+ pi- # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0015 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_Kmepnu.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_Kmepnu.dec new file mode 100644 index 0000000..b79c520 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_Kmepnu.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Upsilon(4S) production # +# D*+ -> D0 pi+, D0 -> K- e+ nu_e # +# # +# created: kflood jan2799 # +################################################### +# +Alias myD0 D0 +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K- e+ nu_e ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_Kmmupnu.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_Kmmupnu.dec new file mode 100644 index 0000000..3c6cce5 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_Kmmupnu.dec @@ -0,0 +1,20 @@ +################################################### +# # +# Upsilon(4S) production # +# D*+ -> D0 pi+, D0 -> K- mu+ nu_mu # +# # +# created: kflood nov0499 # +# Mail: KFLOOD@SLAC.STANFORD.EDU +################################################### +# +Alias myD0 D0 +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K- mu+ nu_mu ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_Kpemnu_WS.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_Kpemnu_WS.dec new file mode 100644 index 0000000..f5accbe --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_Kpemnu_WS.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Upsilon(4S) production # +# D*+ -> D0 pi+, D0 -> K+ e- anti-nu_e # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0 D0 +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K+ e- anti-nu_e PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_D0pi_Kpmumnu_WS.dec b/BaBar_2014/Ups4S_Dstarp_D0pi_Kpmumnu_WS.dec new file mode 100644 index 0000000..b7e3a6a --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_D0pi_Kpmumnu_WS.dec @@ -0,0 +1,19 @@ +################################################### +# # +# Upsilon(4S) production # +# D*+ -> D0 pi+, D0 -> K+ mu- anti-nu_mu # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0 D0 +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Dstarp_Dppi0_DpKpipi.dec b/BaBar_2014/Ups4S_Dstarp_Dppi0_DpKpipi.dec new file mode 100644 index 0000000..fab40d4 --- /dev/null +++ b/BaBar_2014/Ups4S_Dstarp_Dppi0_DpKpipi.dec @@ -0,0 +1,27 @@ +################################################### +# # +# Ups(4S) production # +# D*+ -> D+ pi0, D+ -> K- pi+ pi+ # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D+ D+ + +# +# Vector Mesons +# +Decay D*+ +0.3060 my-D+ pi0 VSS; +Enddecay +# +Decay my-D+ +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/Ups4S_Xic0toOmegaK.dec b/BaBar_2014/Ups4S_Xic0toOmegaK.dec new file mode 100644 index 0000000..617c7b0 --- /dev/null +++ b/BaBar_2014/Ups4S_Xic0toOmegaK.dec @@ -0,0 +1,48 @@ + +############################################################ +# Up(4S) -> B0B0_bar Or -> B+B- # +# # +# Any B # +# | # +# | # +# +-> Xi_c0 # +# | [+CC mode] # +# | # +# +-> Omega- K+ # +# # +# Mail: vziegler@slac.stanford.edu # +############################################################ +# +Alias myLambda0 Lambda0 +Alias myALambda0 anti-Lambda0 + +Alias myOmega- Omega- +Alias myanti-Omega+ anti-Omega+ + +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myALambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +Decay myOmega- +1.000 K- myLambda0 PHSP; +Enddecay +# +Decay myanti-Omega+ +1.000 K+ myALambda0 PHSP; +Enddecay +# +Decay Xi_c0 +1.000 myOmega- K+ PHSP; +Enddecay +# +Decay anti-Xi_c0 +1.000 myanti-Omega+ K- PHSP; +Enddecay +# +End + + diff --git a/BaBar_2014/Ups4S_Xic0toXipi.dec b/BaBar_2014/Ups4S_Xic0toXipi.dec new file mode 100644 index 0000000..fa67d11 --- /dev/null +++ b/BaBar_2014/Ups4S_Xic0toXipi.dec @@ -0,0 +1,47 @@ + +############################################################ +# Up(4S) -> B0B0_bar Or -> B+B- # +# # +# Any B # +# | # +# | # +# +-> Xi_c0 # +# | [+CC mode] # +# | # +# +-> Xi- pi+ # +# # +# Mail: vziegler@slac.stanford.edu # +############################################################ +# +Alias myLambda0 Lambda0 +Alias myALambda0 anti-Lambda0 + +Alias myXi- Xi- +Alias myanti-Xi+ anti-Xi+ + +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay myALambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +Decay myXi- +1.000 pi- myLambda0 PHSP; +Enddecay +# +Decay myanti-Xi+ +1.000 pi+ myALambda0 PHSP; +Enddecay +# +Decay Xi_c0 +1.000 myXi- pi+ PHSP; +Enddecay +# +Decay anti-Xi_c0 +1.000 myanti-Xi+ pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/Ups4S_to_gammaChib3_3P1_to_gammaUps3S_to_pipiUpsnS.dec b/BaBar_2014/Ups4S_to_gammaChib3_3P1_to_gammaUps3S_to_pipiUpsnS.dec new file mode 100644 index 0000000..53332d5 --- /dev/null +++ b/BaBar_2014/Ups4S_to_gammaChib3_3P1_to_gammaUps3S_to_pipiUpsnS.dec @@ -0,0 +1,115 @@ +################################################### +# # +# Ups(4S) -> gamma Chib1(3P) # +# Chib1(3P)->gamma Ups(3S) # +# Ups(3S)->pi+pi-Ups(2S) # +# or Ups(3S)->pi0pi0Ups(2S) # +# or Ups(3S)->pi+pi-Ups(1S) # +# or Ups(3S)->pi0pi0Ups(1S) # +# Author: Joe Izen # +# created: 13/Jul/00 # +################################################### +# +# EvtGen card Ups4s -> gamma chi_b1(3P), chi_b1(3P) ->gamma Ups(3S) +# Default Upsilon(3S) decay +# +# Partial wave amplitudes for V -> gamma V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 124 of Joe's log book +# +# L S M(L,S) Ups4s -> gamma chi_b1(3P) +# Ups3s -> gamma chi_b1(2P) +# chi_b1(3P) ->gamma Ups(3S) +# 0 1 (1/2) * ( A( 1 1) + A( 1 0) - A(-1 0) - A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 0 or 2 +# Assume L=0 dominates. +# +Define VGV_1_1 1.0 +Define VGV_1_0 1.0 +Define VGV_-1_0 -1.0 +Define VGV_-1_-1 -1.0 +# +Define argVGV_1_1 0.0 +Define argVGV_1_0 0.0 +Define argVGV_-1_0 0.0 +Define argVGV_-1_-1 0.0 +#=========================================================== +# Partial wave amplitudes for V -> gamma T in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 125 of Joe's log book +# +# L S M(L,S) Ups3s -> gamma chi_b2(3P) +# +# 0 1 ( ) * ( sqrt(6)*A(1 2) + sqrt(3)*A( 1 1) + A( 1 0) +# A(-1 0) + sqrt(3)*A(-1 -1) + sqrt(6)*A(-1 -2) ) +# +# Note Parity conservation for EM or Strong decays requires L = 0 or 2 +# Assume L=0 dominates. +# +Define VGT_1_2 2.4494897 +Define VGT_1_1 1.7320508 +Define VGT_1_0 1.0 +Define VGT_-1_0 1.0 +Define VGT_-1_-1 1.7320508 +Define VGT_-1_-2 2.4494897 +# +Define argVGT_1_2 0.0 +Define argVGT_1_1 0.0 +Define argVGT_1_0 0.0 +Define argVGT_-1_0 0.0 +Define argVGT_-1_-1 0.0 +Define argVGT_-1_-2 0.0 + +#=========================================================== +# Partial wave amplitudes for V -> gamma S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 125 of Joe's log book +# +# L S M(L,S) Ups3s -> gamma chi_b0(3P) +# +# 0 1 ( ) * ( A( 1 0) - A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires L = 0 or 2 +# Assume L=0 dominates. +# +Define VGS_1_0 1.0 +Define VGS_-1_0 -1.0 +# +Define argVGS_1_0 0.0 +Define argVGS_-1_0 0.0 +#=========================================================== + +Decay Upsilon(4S) +1.00 gamma chi_b1(3P) HELAMP VGV_1_1 argVGV_1_1 VGV_1_0 argVGV_1_0 + VGV_-1_0 argVGV_-1_0 VGV_-1_-1 argVGV_-1_-1; +Enddecay +# + +Decay chi_b1(3P) +1.0000 gamma Upsilon(3S) HELAMP VGV_1_1 argVGV_1_1 VGV_1_0 argVGV_1_0 + VGV_-1_0 argVGV_-1_0 VGV_-1_-1 argVGV_-1_-1; +Enddecay + +Decay Upsilon(3S) +0.0000 e+ e- PHOTOS VLL; +0.0000 mu+ mu- PHOTOS VLL; +0.0000 tau+ tau- VLL; +0.0000 Upsilon pi+ pi- PHSP; +0.0000 Upsilon pi0 pi0 PHSP; +0.25000 Upsilon(2S) pi+ pi- PHSP; +0.25000 Upsilon(2S) pi0 pi0 PHSP; +0.25000 Upsilon pi+ pi- PHSP; +0.25000 Upsilon pi0 pi0 PHSP; +0.0000 Upsilon(2S) gamma gamma PHSP; + +0.0000 gamma chi_b2(2P) HELAMP VGT_1_2 argVGT_1_2 VGT_1_1 argVGT_1_1 VGT_1_0 argVGT_1_0 + VGT_-1_0 argVGT_-1_0 VGT_-1_-1 argVGT_-1_-1 VGT_-1_-2 argVGT_-1_-2; + +0.0000 gamma chi_b1(2P) HELAMP VGV_1_1 argVGV_1_1 VGV_1_0 argVGV_1_0 + VGV_-1_0 argVGV_-1_0 VGV_-1_-1 argVGV_-1_-1; + +0.0000 gamma chi_b0(2P) HELAMP VGS_1_0 argVGS_1_0 VGS_-1_0 argVGS_-1_0; +Enddecay + +End diff --git a/BaBar_2014/Ups4S_to_gammaChib3_3P1_to_gammaUpsnS_to_ll.dec b/BaBar_2014/Ups4S_to_gammaChib3_3P1_to_gammaUpsnS_to_ll.dec new file mode 100644 index 0000000..ebe5f45 --- /dev/null +++ b/BaBar_2014/Ups4S_to_gammaChib3_3P1_to_gammaUpsnS_to_ll.dec @@ -0,0 +1,115 @@ +################################################### +# # +# Ups(4S) -> gamma Chib1(3P) # +# Chib1(3P)->gamma Ups(3S or 2S) # +# Ups->l+l- # +# Author: Joe Izen # +# created: 13/Jul/00 # +################################################### +# +# EvtGen card Ups4s -> gamma chi_b1(3P), chi_b1(3P) ->gamma Ups(3S) +# Default Upsilon(3S) decay +# +# Partial wave amplitudes for V -> gamma V in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 124 of Joe's log book +# +# L S M(L,S) Ups4s -> gamma chi_b1(3P) +# Ups3s -> gamma chi_b1(2P) +# chi_b1(3P) ->gamma Ups(3S) +# 0 1 (1/2) * ( A( 1 1) + A( 1 0) - A(-1 0) - A(-1 -1) ) +# +# Note Parity conservation for EM or Strong decays requires L = 0 or 2 +# Assume L=0 dominates. +# +Define VGV_1_1 1.0 +Define VGV_1_0 1.0 +Define VGV_-1_0 -1.0 +Define VGV_-1_-1 -1.0 +# +Define argVGV_1_1 0.0 +Define argVGV_1_0 0.0 +Define argVGV_-1_0 0.0 +Define argVGV_-1_-1 0.0 +#=========================================================== +# Partial wave amplitudes for V -> gamma T in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 125 of Joe's log book +# +# L S M(L,S) Ups3s -> gamma chi_b2(3P) +# +# 0 1 ( ) * ( sqrt(6)*A(1 2) + sqrt(3)*A( 1 1) + A( 1 0) +# A(-1 0) + sqrt(3)*A(-1 -1) + sqrt(6)*A(-1 -2) ) +# +# Note Parity conservation for EM or Strong decays requires L = 0 or 2 +# Assume L=0 dominates. +# +Define VGT_1_2 2.4494897 +Define VGT_1_1 1.7320508 +Define VGT_1_0 1.0 +Define VGT_-1_0 1.0 +Define VGT_-1_-1 1.7320508 +Define VGT_-1_-2 2.4494897 +# +Define argVGT_1_2 0.0 +Define argVGT_1_1 0.0 +Define argVGT_1_0 0.0 +Define argVGT_-1_0 0.0 +Define argVGT_-1_-1 0.0 +Define argVGT_-1_-2 0.0 + +#=========================================================== +# Partial wave amplitudes for V -> gamma S in helicity formalism +# Reference: R. Kutschke "An Angular Distribution Cookbook" +# Calculation on p 125 of Joe's log book +# +# L S M(L,S) Ups3s -> gamma chi_b0(3P) +# +# 0 1 ( ) * ( A( 1 0) - A(-1 0) ) +# +# Note Parity conservation for EM or Strong decays requires L = 0 or 2 +# Assume L=0 dominates. +# +Define VGS_1_0 1.0 +Define VGS_-1_0 -1.0 +# +Define argVGS_1_0 0.0 +Define argVGS_-1_0 0.0 +#=========================================================== + +Decay Upsilon(4S) +1.00 gamma chi_b1(3P) HELAMP VGV_1_1 argVGV_1_1 VGV_1_0 argVGV_1_0 + VGV_-1_0 argVGV_-1_0 VGV_-1_-1 argVGV_-1_-1; +Enddecay +# + +Decay chi_b1(3P) +0.5000 gamma Upsilon(3S) HELAMP VGV_1_1 argVGV_1_1 VGV_1_0 argVGV_1_0 + VGV_-1_0 argVGV_-1_0 VGV_-1_-1 argVGV_-1_-1; +0.5000 gamma Upsilon(2S) HELAMP VGV_1_1 argVGV_1_1 VGV_1_0 argVGV_1_0 + VGV_-1_0 argVGV_-1_0 VGV_-1_-1 argVGV_-1_-1; +Enddecay + +Decay Upsilon(3S) +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +0.0000 tau+ tau- VLL; +0.0000 Upsilon pi+ pi- PHSP; +0.0000 Upsilon pi0 pi0 PHSP; +0.0000 Upsilon(2S) pi+ pi- PHSP; +0.0000 Upsilon(2S) pi0 pi0 PHSP; + +0.0000 gamma chi_b2(2P) HELAMP VGT_1_2 argVGT_1_2 VGT_1_1 argVGT_1_1 VGT_1_0 argVGT_1_0 + VGT_-1_0 argVGT_-1_0 VGT_-1_-1 argVGT_-1_-1 VGT_-1_-2 argVGT_-1_-2; + +0.0000 gamma chi_b1(2P) HELAMP VGV_1_1 argVGV_1_1 VGV_1_0 argVGV_1_0 + VGV_-1_0 argVGV_-1_0 VGV_-1_-1 argVGV_-1_-1; + +0.0000 gamma chi_b0(2P) HELAMP VGS_1_0 argVGS_1_0 VGS_-1_0 argVGS_-1_0; +Enddecay + +Decay Upsilon(2S) +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +End diff --git a/BaBar_2014/Ups4sToDlnuX_D0kpi.dec b/BaBar_2014/Ups4sToDlnuX_D0kpi.dec new file mode 100644 index 0000000..f489583 --- /dev/null +++ b/BaBar_2014/Ups4sToDlnuX_D0kpi.dec @@ -0,0 +1,273 @@ +################################################### +# # +# Ups4SToDlnuX_D0Kpi decay.dec # +# # +# Decay: B -> D0 l- nu X anti-B -> X # +# | # +# |->D0 pi+ # +# |->K- pi+ # +# # +# + cc # +# # +# The semileptonic B BRs and excited charm BRs # +# have been taken from the analysis-8 version of # +# DECAY.DEC; they may need to be changed in future# +# versions of this decay file. # +# # +# Author: Bob Kowalewski kowalews@uvic.ca # +# 2001/04/26 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyB+ B+ +Alias MyB- B- +Alias MyD*+ D*+ +Alias MyD*0 D*0 +Alias MyD0 D0 +Alias MyD*- D*- +Alias Myanti-D*0 anti-D*0 +Alias Myanti-D0 anti-D0 +Alias MyD_1+ D_1+ +Alias MyD_1- D_1- +Alias MyD_10 D_10 +Alias Myanti-D_10 anti-D_10 +Alias MyD'_1+ D'_1+ +Alias MyD'_1- D'_1- +Alias MyD'_10 D'_10 +Alias Myanti-D'_10 anti-D'_10 +Alias MyD_0*+ D_0*+ +Alias MyD_0*- D_0*- +Alias MyD_0*0 D_0*0 +Alias Myanti-D_0*0 anti-D_0*0 +Alias MyD_2*+ D_2*+ +Alias MyD_2*- D_2*- +Alias MyD_2*0 D_2*0 +Alias Myanti-D_2*0 anti-D_2*0 +# +Decay Upsilon(4S) +0.210 MyB0 anti-B0 VSS_MIX dm; +0.210 Myanti-B0 B0 VSS_MIX dm; +0.040 Myanti-B0 anti-B0 VSS_MIX dm; +0.040 MyB0 B0 VSS_MIX dm; +0.250 MyB+ B- VSS; +0.250 MyB- B+ VSS; +Enddecay +# +Decay Myanti-B0 +# b -> c semileptonic +# +0.0560 MyD*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ e- anti-nu_e PHOTOS ISGW2; +0.0056 MyD_1+ e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD_0*+ e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD'_1+ e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD_2*+ e- anti-nu_e PHOTOS ISGW2; +0.0010 MyD*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0020 MyD*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 MyD0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0560 MyD*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; +0.0056 MyD_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD_0*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD'_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD_2*+ mu- anti-nu_mu PHOTOS ISGW2; +0.0010 MyD*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0020 MyD*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 MyD0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyB0 +# b -> c semileptonic +0.0560 MyD*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- e+ nu_e PHOTOS ISGW2; +0.0056 MyD_1- e+ nu_e PHOTOS ISGW2; +0.0020 MyD_0*- e+ nu_e PHOTOS ISGW2; +0.0037 MyD'_1- e+ nu_e PHOTOS ISGW2; +0.0037 MyD_2*- e+ nu_e PHOTOS ISGW2; +0.0010 MyD*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0020 Myanti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 Myanti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 MyD*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 D- mu+ nu_mu PHOTOS ISGW2; +0.0056 MyD_1- mu+ nu_mu PHOTOS ISGW2; +0.0020 MyD_0*- mu+ nu_mu PHOTOS ISGW2; +0.0037 MyD'_1- mu+ nu_mu PHOTOS ISGW2; +0.0037 MyD_2*- mu+ nu_mu PHOTOS ISGW2; +0.0010 MyD*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0020 Myanti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 Myanti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyB- +# b -> c semileptonic +# +0.0560 MyD*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 e- anti-nu_e PHOTOS ISGW2; +0.0056 MyD_10 e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD_0*0 e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD'_10 e- anti-nu_e PHOTOS ISGW2; +0.0037 MyD_2*0 e- anti-nu_e PHOTOS ISGW2; +0.0020 MyD*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0010 MyD*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; +0.0030 MyD0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; +# +0.0560 MyD*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 MyD0 mu- anti-nu_mu PHOTOS ISGW2; +0.0056 MyD_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD_0*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD'_10 mu- anti-nu_mu PHOTOS ISGW2; +0.0037 MyD_2*0 mu- anti-nu_mu PHOTOS ISGW2; +0.0020 MyD*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0010 MyD*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +0.0030 MyD0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyB+ +# +# b -> c semileptonic +0.0560 Myanti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 e+ nu_e PHOTOS ISGW2; +0.0056 Myanti-D_10 e+ nu_e PHOTOS ISGW2; +0.0020 Myanti-D_0*0 e+ nu_e PHOTOS ISGW2; +0.0037 Myanti-D'_10 e+ nu_e PHOTOS ISGW2; +0.0037 Myanti-D_2*0 e+ nu_e PHOTOS ISGW2; +0.0020 MyD*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0010 Myanti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; +0.0030 Myanti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; +0.0560 Myanti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; +0.0210 Myanti-D0 mu+ nu_mu PHOTOS ISGW2; +0.0056 Myanti-D_10 mu+ nu_mu PHOTOS ISGW2; +0.0020 Myanti-D_0*0 mu+ nu_mu PHOTOS ISGW2; +0.0037 Myanti-D'_10 mu+ nu_mu PHOTOS ISGW2; +0.0037 Myanti-D_2*0 mu+ nu_mu PHOTOS ISGW2; +0.0020 MyD*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0010 Myanti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; +0.0030 Myanti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; +Enddecay +# +Decay MyD0 +1.0000 K- pi+ PHSP; +Enddecay +# +Decay Myanti-D0 +1.0000 K+ pi- PHSP; +Enddecay +# +# Vector Mesons +# +Decay MyD*+ +0.6830 MyD0 pi+ VSS; +0.3060 D+ pi0 VSS; +0.0110 D+ gamma VSP_PWAVE; +Enddecay +Decay MyD*- +0.6830 Myanti-D0 pi- VSS; +0.3060 D- pi0 VSS; +0.0110 D- gamma VSP_PWAVE; +Enddecay +Decay MyD*0 +0.6190 MyD0 pi0 VSS; +0.3810 MyD0 gamma VSP_PWAVE; +Enddecay +Decay Myanti-D*0 +0.6190 Myanti-D0 pi0 VSS; +0.3810 Myanti-D0 gamma VSP_PWAVE; +Enddecay +# +# D** +# +Decay MyD_0*+ +0.3333 D+ pi0 PHSP; +0.6667 MyD0 pi+ PHSP; +Enddecay +Decay MyD_0*- +0.3333 D- pi0 PHSP; +0.6667 Myanti-D0 pi- PHSP; +Enddecay +Decay MyD_0*0 +0.3333 MyD0 pi0 PHSP; +0.6667 D+ pi- PHSP; +Enddecay +Decay Myanti-D_0*0 +0.3333 Myanti-D0 pi0 PHSP; +0.6667 D- pi+ PHSP; +Enddecay +# +Decay MyD_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay MyD_1- +0.3333 MyD*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +Enddecay +Decay MyD_10 +0.3333 MyD*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.6667 MyD*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +Decay Myanti-D_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0 +; +0.6667 MyD*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +Enddecay +# +Decay MyD'_1+ +0.3333 MyD*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD'_1- +0.3333 MyD*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 Myanti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0 +; +Enddecay +Decay MyD'_10 +0.6667 MyD*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.3333 MyD*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +Decay Myanti-D'_10 +0.3333 Myanti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.6667 MyD*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +Decay MyD_2*+ +0.1030 MyD*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 MyD*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 D+ pi0 TSS; +0.4590 MyD0 pi+ TSS; +Enddecay +Decay MyD_2*- +0.1030 MyD*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2090 Myanti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 D- pi0 TSS; +0.4590 Myanti-D0 pi- TSS; +Enddecay +Decay MyD_2*0 +0.2090 MyD*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.1030 MyD*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 MyD0 pi0 TSS; +0.4590 D+ pi- TSS; +Enddecay +Decay Myanti-D_2*0 +0.1030 Myanti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0 +; +0.2090 MyD*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; +0.2290 Myanti-D0 pi0 TSS; +0.4590 D- pi+ TSS; +Enddecay +# +End + + + diff --git a/BaBar_2014/X50_Sigmac0_Lambda0_K0.dec b/BaBar_2014/X50_Sigmac0_Lambda0_K0.dec new file mode 100644 index 0000000..5a00477 --- /dev/null +++ b/BaBar_2014/X50_Sigmac0_Lambda0_K0.dec @@ -0,0 +1,51 @@ +############################################################################### +# # +# continuum production: +# +# Sigma_c0 (a.k.a. pentaquark state) +# Sigma0 (Lambda0 gamma) K_S0 +# All particles are decayed isotropically # +# # +# Nicolas Berger 03/04 +# # +############################################################################### +# + +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias myK_S0 K_S0 + +Particle Sigma_c0 1.862 0.001 +Particle anti-Sigma_c0 1.862 0.001 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Sigma_c0 +1.000 myLambda0 K_S0 PHSP; +Enddecay + +## +Decay anti-Sigma_c0 +1.000 myanti-Lambda0 K_S0 PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/X50_Sigmac0_Sigma0_K0.dec b/BaBar_2014/X50_Sigmac0_Sigma0_K0.dec new file mode 100644 index 0000000..6e1a187 --- /dev/null +++ b/BaBar_2014/X50_Sigmac0_Sigma0_K0.dec @@ -0,0 +1,63 @@ +############################################################################### +# # +# continuum production: +# +# Sigma_c0 (a.k.a. pentaquark state) +# Sigma0 (Lambda0 gamma) K_S0 +# All particles are decayed isotropically # +# # +# Nicolas Berger 03/04 +# # +############################################################################### +# + +Alias mySigma0 Sigma0 +Alias myanti-Sigma0 anti-Sigma0 +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias myK_S0 K_S0 + +Particle Sigma_c0 1.862 0.001 +Particle anti-Sigma_c0 1.862 0.001 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Sigma_c0 +1.000 mySigma0 K_S0 PHSP; +Enddecay + +## +Decay anti-Sigma_c0 +1.000 myanti-Sigma0 K_S0 PHSP; +Enddecay + +## +Decay mySigma0 +1.000 myLambda0 gamma PHSP; +Enddecay + +## +Decay myanti-Sigma0 +1.000 myanti-Lambda0 gamma PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/X50_Xi1530_Lambda0_K0.dec b/BaBar_2014/X50_Xi1530_Lambda0_K0.dec new file mode 100644 index 0000000..6180144 --- /dev/null +++ b/BaBar_2014/X50_Xi1530_Lambda0_K0.dec @@ -0,0 +1,147 @@ +############################################################################### +# # +# continuum production: +# +# Xi*(1530) (AKA) pentaquark state +# Xi*(1530) -> Lambda0 K_S0 +# All particles are decayed isotropically # +# # +# Nicolas Berger 29/06/04 +# # +############################################################################### +# + +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 +Alias myK_S0 K_S0 + +Particle Xi*0 1.862 0.001 +Particle anti-Xi*0 1.862 0.001 + + +ChangeMassMin anti-Xi*0 1.5 +ChangeMassMin Xi*0 1.5 + +ChangeMassMax anti-Xi*0 2.5 +ChangeMassMax Xi*0 2.5 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Xi*0 +1.000 myLambda0 myK_S0 PHSP; +Enddecay + +## +Decay anti-Xi*0 +1.000 myanti-Lambda0 myK_S0 PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +## +Decay myK_S0 +1.000 pi+ pi- PHSP; +Enddecay + +############ + +# Charm Baryons +# +Decay Lambda_c+ +0.01800 e+ nu_e Lambda0 JETSET 42; +0.00500 e+ nu_e Sigma0 JETSET 42; +0.00500 e+ nu_e Sigma*0 JETSET 42; +0.00300 e+ nu_e n0 JETSET 42; +0.00200 e+ nu_e Delta0 JETSET 42; +0.00600 e+ nu_e p+ pi- JETSET 42; +0.00600 e+ nu_e n0 pi0 JETSET 42; +0.01800 mu+ nu_mu Lambda0 JETSET 42; +0.00500 mu+ nu_mu Sigma0 JETSET 42; +0.00500 mu+ nu_mu Sigma*0 JETSET 42; +0.00300 mu+ nu_mu n0 JETSET 42; +0.00200 mu+ nu_mu Delta0 JETSET 42; +0.00600 mu+ nu_mu p+ pi- JETSET 42; +0.00600 mu+ nu_mu n0 pi0 JETSET 42; +0.00660 Delta++ K- JETSET 0; +0.02500 Delta++ K*- JETSET 0; +0.02300 p+ anti-K0 JETSET 0; +0.04000 p+ anti-K*0 JETSET 0; +0.00500 Delta+ anti-K0 JETSET 0; +0.00500 Delta+ anti-K*0 JETSET 0; +0.00580 Lambda0 pi+ JETSET 0; +0.00500 Lambda0 rho+ JETSET 0; +0.00550 Sigma0 pi+ JETSET 0; +0.00400 Sigma0 rho+ JETSET 0; +0.00400 Sigma*0 pi+ JETSET 0; +0.00400 Sigma*0 rho+ JETSET 0; +0.00400 Sigma+ pi0 JETSET 0; +0.00200 Sigma+ eta JETSET 0; +0.00200 Sigma+ eta' JETSET 0; +0.00400 Sigma+ rho0 JETSET 0; +0.00400 Sigma+ omega JETSET 0; +0.00300 Sigma*+ pi0 JETSET 0; +0.00200 Sigma*+ eta JETSET 0; +0.00300 Sigma*+ rho0 JETSET 0; +0.00300 Sigma*+ omega JETSET 0; +0.00200 Xi0 K+ JETSET 0; +0.00200 Xi0 K*+ JETSET 0; +0.00100 Delta++ pi- JETSET 0; +0.00100 Delta++ rho- JETSET 0; +0.00200 p+ pi0 JETSET 0; +0.00100 p+ eta JETSET 0; +0.00100 p+ eta' JETSET 0; +0.00200 p+ rho0 JETSET 0; +0.00200 p+ omega JETSET 0; +0.00130 p+ phi JETSET 0; +0.00180 p+ f_0 JETSET 0; +0.00100 Delta+ pi0 JETSET 0; +0.00100 Delta+ eta JETSET 0; +0.00100 Delta+ eta' JETSET 0; +0.00100 Delta+ rho0 JETSET 0; +0.00100 Delta+ omega JETSET 0; +0.00300 n0 pi+ JETSET 0; +0.00300 n0 rho+ JETSET 0; +0.00300 Delta0 pi+ JETSET 0; +0.00300 Delta0 rho+ JETSET 0; +0.00500 Lambda0 K+ JETSET 0; +0.00500 Lambda0 K*+ JETSET 0; +0.00200 Sigma0 K+ JETSET 0; +0.00200 Sigma0 K*+ JETSET 0; +0.00100 Sigma*0 K+ JETSET 0; +0.00100 Sigma*0 K*+ JETSET 0; +0.00200 Sigma+ K0 JETSET 0; +0.00200 Sigma+ K*0 JETSET 0; +0.00100 Sigma*+ K0 JETSET 0; +0.00100 Sigma*+ K*0 JETSET 0; +0.13000 u anti-d d su_0 JETSET 13; +0.05700 u anti-d d su_1 JETSET 13; +0.03500 u anti-s d su_0 JETSET 13; +0.03500 u anti-d d ud_0 JETSET 13; +0.09500 s uu_1 JETSET 13; +0.14000 u su_0 JETSET 13; +0.14000 u su_1 JETSET 13; +0.03000 d uu_1 JETSET 13; +0.01500 u ud_0 JETSET 13; +0.01500 u ud_1 JETSET 13; +Enddecay +CDecay anti-Lambda_c- +# + +End + + diff --git a/BaBar_2014/X5m_Sigmacm_Lambda0_Km.dec b/BaBar_2014/X5m_Sigmacm_Lambda0_Km.dec new file mode 100644 index 0000000..9e93924 --- /dev/null +++ b/BaBar_2014/X5m_Sigmacm_Lambda0_Km.dec @@ -0,0 +1,50 @@ +############################################################################### +# # +# continuum production: +# +# Sigma_c+ (a.k.a. pentaquark state) +# Sigma0 (Lambda0 gamma) K+ +# All particles are decayed isotropically # +# # +# Nicolas Berger 03/04 +# # +############################################################################### +# + +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Sigma_c+ 1.862 0.001 +Particle anti-Sigma_c- 1.862 0.001 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay anti-Sigma_c- +1.000 myLambda0 K- PHSP; +Enddecay + +## +Decay Sigma_c+ +1.000 myanti-Lambda0 K+ PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/X5m_Sigmacm_Sigma0_Km.dec b/BaBar_2014/X5m_Sigmacm_Sigma0_Km.dec new file mode 100644 index 0000000..6edcd79 --- /dev/null +++ b/BaBar_2014/X5m_Sigmacm_Sigma0_Km.dec @@ -0,0 +1,62 @@ +############################################################################### +# # +# continuum production: +# +# Sigma_c+ (a.k.a. pentaquark state) +# Sigma0 (Lambda0 gamma) K+ +# All particles are decayed isotropically # +# # +# Nicolas Berger 03/04 +# # +############################################################################### +# + +Alias mySigma0 Sigma0 +Alias myanti-Sigma0 anti-Sigma0 +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Sigma_c+ 1.862 0.001 +Particle anti-Sigma_c- 1.862 0.001 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay anti-Sigma_c- +1.000 mySigma0 K- PHSP; +Enddecay + +## +Decay Sigma_c+ +1.000 myanti-Sigma0 K+ PHSP; +Enddecay + +## +Decay mySigma0 +1.000 myLambda0 gamma PHSP; +Enddecay + +## +Decay myanti-Sigma0 +1.000 myanti-Lambda0 gamma PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/X5m_Xi1530_Lambda0_Km.dec b/BaBar_2014/X5m_Xi1530_Lambda0_Km.dec new file mode 100644 index 0000000..cdc0061 --- /dev/null +++ b/BaBar_2014/X5m_Xi1530_Lambda0_Km.dec @@ -0,0 +1,57 @@ +############################################################################### +# # +# continuum production: +# +# Xi*(1530) (AKA) pentaquark state +# Xi*(1530) -> Lambda0 K- +# All particles are decayed isotropically # +# # +# Nicolas Berger 29/06/04 +# # +############################################################################### +# + +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Xi*- 1.862 0.001 +Particle anti-Xi*+ 1.862 0.001 + + +ChangeMassMin anti-Xi*+ 1.5 +ChangeMassMin Xi*- 1.5 + +ChangeMassMax anti-Xi*+ 2.5 +ChangeMassMax Xi*- 2.5 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Xi*- +1.000 myLambda0 K- PHSP; +Enddecay + +## +Decay anti-Xi*+ +1.000 myanti-Lambda0 K+ PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/Xi15030.dec b/BaBar_2014/Xi15030.dec new file mode 100644 index 0000000..2de341f --- /dev/null +++ b/BaBar_2014/Xi15030.dec @@ -0,0 +1,60 @@ +############################################################################### +# # +# continuum production: +# +# Sigma0 (AKA) pentaquark state +# Xi*0 -> Xi- pi+ +# All particles are decayed isotropically # +# # +# Valerie Halyo Jan 1 04 +# # +############################################################################### +# + +Alias myXi- Xi- +Alias myanti-Xi+ anti-Xi+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay anti-Xi*0 +1.000 myanti-Xi+ pi- PHSP; +Enddecay + +## +Decay Xi*0 +1.000 myXi- pi+ PHSP; +Enddecay + +## +Decay myanti-Xi+ +1.000 myanti-Lambda0 pi+ PHSP; +Enddecay + +## +Decay myXi- +1.000 myLambda0 pi- PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +# +End + + diff --git a/BaBar_2014/Xic_5modes.dec b/BaBar_2014/Xic_5modes.dec new file mode 100644 index 0000000..b2364cc --- /dev/null +++ b/BaBar_2014/Xic_5modes.dec @@ -0,0 +1,41 @@ +############################################################ +# # +# From ccbar: # +# Xi_c0 -> Xi- (rho+, pi+, pi+pi+pi-, pi+pi0) # +# and # +# Xi_c+ -> Xi- pi+ pi+ # +# using phase space. # +# # +# created: S-J Lee Mar08-02 # +# slee@slac.stanford.edu # +# # +############################################################ +# +# Alias my-Xi_c0 Xi_c0 +# Alias my-Xi- Xi- +# Alias my-Lambda0 Lambda0 + +Decay Xi_c0 +0.250 Xi- rho+ PHSP; +0.250 Xi- pi+ PHSP; +0.250 Xi- pi+ pi+ pi- PHSP; +0.250 Xi- pi+ pi0 PHSP; +Enddecay +# +Decay anti-Xi_c0 +0.250 anti-Xi+ rho- PHSP; +0.250 anti-Xi+ pi- PHSP; +0.250 anti-Xi+ pi- pi- pi+ PHSP; +0.250 anti-Xi+ pi- pi0 PHSP; +Enddecay +# +Decay Xi_c+ +1.000 Xi- pi+ pi+ PHSP; +Enddecay +# +Decay anti-Xi_c- +1.000 anti-Xi+ pi- pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/Xm_Xi1530.dec b/BaBar_2014/Xm_Xi1530.dec new file mode 100644 index 0000000..52fb3bb --- /dev/null +++ b/BaBar_2014/Xm_Xi1530.dec @@ -0,0 +1,150 @@ +############################################################################### +# # +# continuum production: +# +# Sigma0 (AKA) pentaquark state +# Xi_5^0 -> Xi- pi+ +# All particles are decayed isotropically # +# # +# Valerie Halyo Jan 1 04 +# # +############################################################################### +# + +Alias myXi- Xi- +Alias myanti-Xi+ anti-Xi+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Xi*0 1.862 0.001 +Particle anti-Xi*0 1.862 0.001 + +ChangeMassMin anti-Xi*0 1.5 +ChangeMassMin Xi*0 1.5 + +ChangeMassMax anti-Xi*0 2.5 +ChangeMassMax Xi*0 2.5 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay anti-Xi*0 +1.000 myanti-Xi+ pi- PHSP; +Enddecay + +## +Decay Xi*0 +1.000 myXi- pi+ PHSP; +Enddecay + +## +Decay myanti-Xi+ +1.000 myanti-Lambda0 pi+ PHSP; +Enddecay + +## +Decay myXi- +1.000 myLambda0 pi- PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +# Charm Baryons +# +Decay Lambda_c+ +0.01800 e+ nu_e Lambda0 JETSET 42; +0.00500 e+ nu_e Sigma0 JETSET 42; +0.00500 e+ nu_e Sigma*0 JETSET 42; +0.00300 e+ nu_e n0 JETSET 42; +0.00200 e+ nu_e Delta0 JETSET 42; +0.00600 e+ nu_e p+ pi- JETSET 42; +0.00600 e+ nu_e n0 pi0 JETSET 42; +0.01800 mu+ nu_mu Lambda0 JETSET 42; +0.00500 mu+ nu_mu Sigma0 JETSET 42; +0.00500 mu+ nu_mu Sigma*0 JETSET 42; +0.00300 mu+ nu_mu n0 JETSET 42; +0.00200 mu+ nu_mu Delta0 JETSET 42; +0.00600 mu+ nu_mu p+ pi- JETSET 42; +0.00600 mu+ nu_mu n0 pi0 JETSET 42; +0.00660 Delta++ K- JETSET 0; +0.02500 Delta++ K*- JETSET 0; +0.02300 p+ anti-K0 JETSET 0; +0.04000 p+ anti-K*0 JETSET 0; +0.00500 Delta+ anti-K0 JETSET 0; +0.00500 Delta+ anti-K*0 JETSET 0; +0.00580 Lambda0 pi+ JETSET 0; +0.00500 Lambda0 rho+ JETSET 0; +0.00550 Sigma0 pi+ JETSET 0; +0.00400 Sigma0 rho+ JETSET 0; +0.00400 Sigma*0 pi+ JETSET 0; +0.00400 Sigma*0 rho+ JETSET 0; +0.00400 Sigma+ pi0 JETSET 0; +0.00200 Sigma+ eta JETSET 0; +0.00200 Sigma+ eta' JETSET 0; +0.00400 Sigma+ rho0 JETSET 0; +0.00400 Sigma+ omega JETSET 0; +0.00300 Sigma*+ pi0 JETSET 0; +0.00200 Sigma*+ eta JETSET 0; +0.00300 Sigma*+ rho0 JETSET 0; +0.00300 Sigma*+ omega JETSET 0; +0.00200 Xi0 K+ JETSET 0; +0.00200 Xi0 K*+ JETSET 0; +0.00000 Xi*0 K+ JETSET 0; +0.00100 Delta++ pi- JETSET 0; +0.00100 Delta++ rho- JETSET 0; +0.00200 p+ pi0 JETSET 0; +0.00100 p+ eta JETSET 0; +0.00100 p+ eta' JETSET 0; +0.00200 p+ rho0 JETSET 0; +0.00200 p+ omega JETSET 0; +0.00130 p+ phi JETSET 0; +0.00180 p+ f_0 JETSET 0; +0.00100 Delta+ pi0 JETSET 0; +0.00100 Delta+ eta JETSET 0; +0.00100 Delta+ eta' JETSET 0; +0.00100 Delta+ rho0 JETSET 0; +0.00100 Delta+ omega JETSET 0; +0.00300 n0 pi+ JETSET 0; +0.00300 n0 rho+ JETSET 0; +0.00300 Delta0 pi+ JETSET 0; +0.00300 Delta0 rho+ JETSET 0; +0.00500 Lambda0 K+ JETSET 0; +0.00500 Lambda0 K*+ JETSET 0; +0.00200 Sigma0 K+ JETSET 0; +0.00200 Sigma0 K*+ JETSET 0; +0.00100 Sigma*0 K+ JETSET 0; +0.00100 Sigma*0 K*+ JETSET 0; +0.00200 Sigma+ K0 JETSET 0; +0.00200 Sigma+ K*0 JETSET 0; +0.00100 Sigma*+ K0 JETSET 0; +0.00100 Sigma*+ K*0 JETSET 0; +0.13000 u anti-d d su_0 JETSET 13; +0.05700 u anti-d d su_1 JETSET 13; +0.03500 u anti-s d su_0 JETSET 13; +0.03500 u anti-d d ud_0 JETSET 13; +0.09500 s uu_1 JETSET 13; +0.14000 u su_0 JETSET 13; +0.14000 u su_1 JETSET 13; +0.03000 d uu_1 JETSET 13; +0.01500 u ud_0 JETSET 13; +0.01500 u ud_1 JETSET 13; +Enddecay +CDecay anti-Lambda_c- +# +End + + diff --git a/BaBar_2014/Xm_Xic0_Xi0_K0_K0.dec b/BaBar_2014/Xm_Xic0_Xi0_K0_K0.dec new file mode 100644 index 0000000..746e230 --- /dev/null +++ b/BaBar_2014/Xm_Xic0_Xi0_K0_K0.dec @@ -0,0 +1,69 @@ +############################################################################### +# # +# continuum production: +# +# anti-Xi_c0 (AKA) pentaquark state +# Ps_5^0 -> Xi0 K0 K0 +# All particles are decayed isotropically # +# # +# William Ruddick May 5 04 +# # +############################################################################### +# + +Alias myXi0 Xi0 +Alias myanti-Xi0 anti-Xi0 +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Xi_c0 2.580 0.001 +Particle anti-Xi_c0 2.580 0.001 + +ChangeMassMin anti-Xi_c0 2.3 +ChangeMassMin Xi_c0 2.3 + +ChangeMassMax anti-Xi_c0 3.0 +ChangeMassMax Xi_c0 3.0 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Xi_c0 +1.000 myanti-Xi0 anti-K0 anti-K0 PHSP; +Enddecay + +## +Decay anti-Xi_c0 +1.000 myXi0 K0 K0 PHSP; +Enddecay + +## +Decay myanti-Xi0 +1.000 myanti-Lambda0 pi0 PHSP; +Enddecay + +## +Decay myXi0 +1.000 myLambda0 pi0 PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + + +End + + diff --git a/BaBar_2014/Xm_Xicm_Xi0_K0_pim.dec b/BaBar_2014/Xm_Xicm_Xi0_K0_pim.dec new file mode 100644 index 0000000..bafe198 --- /dev/null +++ b/BaBar_2014/Xm_Xicm_Xi0_K0_pim.dec @@ -0,0 +1,67 @@ +############################################################################### +# # +# continuum production: +# +# anti-Xi_c- (AKA) pentaquark state +# Pss_5^- -> Xi0 K0 pi- +# All particles are decayed isotropically # +# # +# William Ruddick May 5 04 +# # +############################################################################### +# + +Alias myXi0 Xi0 +Alias myanti-Xi0 anti-Xi0 +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle anti-Xi_c- 2.770 0.001 +Particle Xi_c+ 2.770 0.001 + +ChangeMassMin Xi_c+ 2.3 +ChangeMassMin anti-Xi_c- 2.3 + +ChangeMassMax Xi_c+ 3.5 +ChangeMassMax anti-Xi_c- 3.5 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Xi_c+ +1.000 myanti-Xi0 anti-K0 pi+ PHSP; +Enddecay + +## +Decay anti-Xi_c- +1.000 myXi0 K0 pi- PHSP; +Enddecay + +## +Decay myanti-Xi0 +1.000 myanti-Lambda0 pi0 PHSP; +Enddecay + +## +Decay myXi0 +1.000 myLambda0 pi0 PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + diff --git a/BaBar_2014/Xmm_Deltapp.dec b/BaBar_2014/Xmm_Deltapp.dec new file mode 100644 index 0000000..e4aeb3e --- /dev/null +++ b/BaBar_2014/Xmm_Deltapp.dec @@ -0,0 +1,142 @@ +############################################################################### +# # +# continuum production: +# +# Delta++ (AKA) pentaquark state +# Xi- pi- +# All particles are decayed isotropically # +# # +# Valerie Halyo Jan 1 04 +# # +############################################################################### +# + +Alias myXi- Xi- +Alias myanti-Xi+ anti-Xi+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Delta++ 1.862 0.001 +Particle anti-Delta-- 1.862 0.001 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Delta++ +1.000 myanti-Xi+ pi+ PHSP; +Enddecay + +## +Decay anti-Delta-- +1.000 myXi- pi- PHSP; +Enddecay + +## +Decay myanti-Xi+ +1.000 myanti-Lambda0 pi+ PHSP; +Enddecay + +## +Decay myXi- +1.000 myLambda0 pi- PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +############ + +# Charm Baryons +# +Decay Lambda_c+ +0.01800 e+ nu_e Lambda0 JETSET 42; +0.00500 e+ nu_e Sigma0 JETSET 42; +0.00500 e+ nu_e Sigma*0 JETSET 42; +0.00300 e+ nu_e n0 JETSET 42; +0.00200 e+ nu_e Delta0 JETSET 42; +0.00600 e+ nu_e p+ pi- JETSET 42; +0.00600 e+ nu_e n0 pi0 JETSET 42; +0.01800 mu+ nu_mu Lambda0 JETSET 42; +0.00500 mu+ nu_mu Sigma0 JETSET 42; +0.00500 mu+ nu_mu Sigma*0 JETSET 42; +0.00300 mu+ nu_mu n0 JETSET 42; +0.00200 mu+ nu_mu Delta0 JETSET 42; +0.00600 mu+ nu_mu p+ pi- JETSET 42; +0.00600 mu+ nu_mu n0 pi0 JETSET 42; +0.02300 p+ anti-K0 JETSET 0; +0.04000 p+ anti-K*0 JETSET 0; +0.00500 Delta+ anti-K0 JETSET 0; +0.00500 Delta+ anti-K*0 JETSET 0; +0.00580 Lambda0 pi+ JETSET 0; +0.00500 Lambda0 rho+ JETSET 0; +0.00550 Sigma0 pi+ JETSET 0; +0.00400 Sigma0 rho+ JETSET 0; +0.00400 Sigma*0 pi+ JETSET 0; +0.00400 Sigma*0 rho+ JETSET 0; +0.00400 Sigma+ pi0 JETSET 0; +0.00200 Sigma+ eta JETSET 0; +0.00200 Sigma+ eta' JETSET 0; +0.00400 Sigma+ rho0 JETSET 0; +0.00400 Sigma+ omega JETSET 0; +0.00300 Sigma*+ pi0 JETSET 0; +0.00200 Sigma*+ eta JETSET 0; +0.00300 Sigma*+ rho0 JETSET 0; +0.00300 Sigma*+ omega JETSET 0; +0.00200 Xi0 K+ JETSET 0; +0.00200 Xi0 K*+ JETSET 0; +0.00200 Xi*0 K+ JETSET 0; +0.00200 p+ pi0 JETSET 0; +0.00100 p+ eta JETSET 0; +0.00100 p+ eta' JETSET 0; +0.00200 p+ rho0 JETSET 0; +0.00200 p+ omega JETSET 0; +0.00130 p+ phi JETSET 0; +0.00180 p+ f_0 JETSET 0; +0.00100 Delta+ pi0 JETSET 0; +0.00100 Delta+ eta JETSET 0; +0.00100 Delta+ eta' JETSET 0; +0.00100 Delta+ rho0 JETSET 0; +0.00100 Delta+ omega JETSET 0; +0.00300 n0 pi+ JETSET 0; +0.00300 n0 rho+ JETSET 0; +0.00300 Delta0 pi+ JETSET 0; +0.00300 Delta0 rho+ JETSET 0; +0.00500 Lambda0 K+ JETSET 0; +0.00500 Lambda0 K*+ JETSET 0; +0.00200 Sigma0 K+ JETSET 0; +0.00200 Sigma0 K*+ JETSET 0; +0.00100 Sigma*0 K+ JETSET 0; +0.00100 Sigma*0 K*+ JETSET 0; +0.00200 Sigma+ K0 JETSET 0; +0.00200 Sigma+ K*0 JETSET 0; +0.00100 Sigma*+ K0 JETSET 0; +0.00100 Sigma*+ K*0 JETSET 0; +0.13000 u anti-d d su_0 JETSET 13; +0.05700 u anti-d d su_1 JETSET 13; +0.03500 u anti-s d su_0 JETSET 13; +0.03500 u anti-d d ud_0 JETSET 13; +0.09500 s uu_1 JETSET 13; +0.14000 u su_0 JETSET 13; +0.14000 u su_1 JETSET 13; +0.03000 d uu_1 JETSET 13; +0.01500 u ud_0 JETSET 13; +0.01500 u ud_1 JETSET 13; +Enddecay +CDecay anti-Lambda_c- +# + +End + + diff --git a/BaBar_2014/Xmm_Sigmacpp.dec b/BaBar_2014/Xmm_Sigmacpp.dec new file mode 100644 index 0000000..0cc6d65 --- /dev/null +++ b/BaBar_2014/Xmm_Sigmacpp.dec @@ -0,0 +1,62 @@ +############################################################################### +# # +# continuum production: +# +# Sigma_c++ (AKA) pentaquark state +# Xi- pi- +# All particles are decayed isotropically # +# # +# Valerie Halyo Jan 1 04 +# # +############################################################################### +# + +Alias myXi- Xi- +Alias myanti-Xi+ anti-Xi+ +Alias myLambda0 Lambda0 +Alias myanti-Lambda0 anti-Lambda0 + +Particle Sigma_c++ 1.862 0.001 +Particle anti-Sigma_c-- 1.862 0.001 + +## +Decay vpho +0.1 JSCONT 1; +0.4 JSCONT 2; +0.1 JSCONT 3; +0.4 JSCONT 4; +Enddecay + +## +Decay Sigma_c++ +1.000 myanti-Xi+ pi+ PHSP; +Enddecay + +## +Decay anti-Sigma_c-- +1.000 myXi- pi- PHSP; +Enddecay + +## +Decay myanti-Xi+ +1.000 myanti-Lambda0 pi+ PHSP; +Enddecay + +## +Decay myXi- +1.000 myLambda0 pi- PHSP; +Enddecay + +## +Decay myLambda0 +1.000 p+ pi- PHSP; +Enddecay + +## +Decay myanti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay + +End + + diff --git a/BaBar_2014/ccbar.dec b/BaBar_2014/ccbar.dec new file mode 100644 index 0000000..c8e23e0 --- /dev/null +++ b/BaBar_2014/ccbar.dec @@ -0,0 +1,7 @@ +# +# Force the fragmentation to produce a ccbar pair +# +Decay vpho +1.0 JSCONT 4; +Enddecay +End diff --git a/BaBar_2014/ccbar_D0_3K0S.dec b/BaBar_2014/ccbar_D0_3K0S.dec new file mode 100644 index 0000000..c115492 --- /dev/null +++ b/BaBar_2014/ccbar_D0_3K0S.dec @@ -0,0 +1,32 @@ +################################################### +# # +# ccbar continuum production # +# Make a lot of D0->3KS decays # +# K0s -> pi+ pi- # +# # +# created: A. Snyder Wed Mar 29 15:07:14 PST 2000 # +# snyder@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +Decay D0 +# +# decay to 3 K-shorts using phase space +1.0 my-K_S0 my-K_S0 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +1.000 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_D0_KpKm.dec b/BaBar_2014/ccbar_D0_KpKm.dec new file mode 100644 index 0000000..815f49d --- /dev/null +++ b/BaBar_2014/ccbar_D0_KpKm.dec @@ -0,0 +1,20 @@ +################################################### +# # +# Signal Monte Carlo for D0->K-K+ decays # +# without D* tag requirement # +# # +# $Id: ccbar_D0_K+K-.dec,v 1.1 2002/12/14 00:52:33 davidw Exp $ # +################################################### +# + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +Decay D0 +1.0 K- K+ PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_D0bar_KpKm.dec b/BaBar_2014/ccbar_D0bar_KpKm.dec new file mode 100644 index 0000000..7dcf463 --- /dev/null +++ b/BaBar_2014/ccbar_D0bar_KpKm.dec @@ -0,0 +1,20 @@ +################################################### +# # +# Signal Monte Carlo for D0bar->K+K- decays # +# without D* tag requirement # +# # +# $Id: ccbar_D0bar_K+K-.dec,v 1.1 2002/12/14 00:52:33 davidw Exp $ # +################################################### +# + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +Decay anti-D0 +1.0 K+ K- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_Dm_KpKmpim_phsp.dec b/BaBar_2014/ccbar_Dm_KpKmpim_phsp.dec new file mode 100644 index 0000000..bbfd7f7 --- /dev/null +++ b/BaBar_2014/ccbar_Dm_KpKmpim_phsp.dec @@ -0,0 +1,20 @@ +################################################### +# # +# ccbar -> D- X # +# D- -> K+ K- pi- # +# D- decays through phase space # +# # +# created: 04/20/04 - pompili@ba.infn.it # +# # +# 04/20/04: use filter_D-_from_ccbar.tcl # +################################################### +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D- +1.000 K+ K- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dm_KpKmpimpi0_phsp.dec b/BaBar_2014/ccbar_Dm_KpKmpimpi0_phsp.dec new file mode 100644 index 0000000..f91a949 --- /dev/null +++ b/BaBar_2014/ccbar_Dm_KpKmpimpi0_phsp.dec @@ -0,0 +1,20 @@ +################################################### +# # +# ccbar -> D- X # +# D- -> K+ K- pi- pi0 # +# D- decays through phase space # +# # +# created: 04/20/04 - pompili@ba.infn.it # +# # +# 04/20/04: use filter_D-_from_ccbar.tcl # +################################################### +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D- +1.000 K+ K- pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dm_Kpipi_phsp.dec b/BaBar_2014/ccbar_Dm_Kpipi_phsp.dec new file mode 100644 index 0000000..fe43dd0 --- /dev/null +++ b/BaBar_2014/ccbar_Dm_Kpipi_phsp.dec @@ -0,0 +1,21 @@ +################################################### +# # +# ccbar -> D- X # +# D- -> K+ pi- pi- # +# D- decays through phase space # +# # +# created: 09/25/01 - pompili@slac.stanford.edu # +# # +# 09/25/01: use filter_D-_from_ccbar.tcl # +# 02/06/02: use filter_D-_from_ccbar_pstarcut.tcl # +################################################### +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D- +1.0 K+ pi- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dp_KpKmpip_phsp.dec b/BaBar_2014/ccbar_Dp_KpKmpip_phsp.dec new file mode 100644 index 0000000..abf264b --- /dev/null +++ b/BaBar_2014/ccbar_Dp_KpKmpip_phsp.dec @@ -0,0 +1,20 @@ +################################################### +# # +# ccbar -> D+ X # +# D+ -> K+ K- pi+ # +# D+ decays through phase space # +# # +# created: 04/20/04 - pompili@ba.infn.it # +# # +# 04/20/04: use filter_D+_from_ccbar.tcl # +################################################### +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D+ +1.000 K+ K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dp_KpKmpippi0_phsp.dec b/BaBar_2014/ccbar_Dp_KpKmpippi0_phsp.dec new file mode 100644 index 0000000..fd3482c --- /dev/null +++ b/BaBar_2014/ccbar_Dp_KpKmpippi0_phsp.dec @@ -0,0 +1,20 @@ +################################################### +# # +# ccbar -> D+ X # +# D+ -> K+ K- pi+ pi0 # +# D+ decays through phase space # +# # +# created: 04/20/04 - pompili@ba.infn.it # +# # +# 04/20/04: use filter_D+_from_ccbar.tcl # +################################################### +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D+ +1.000 K+ K- pi+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dp_Kpipi_phsp.dec b/BaBar_2014/ccbar_Dp_Kpipi_phsp.dec new file mode 100644 index 0000000..0cb93d3 --- /dev/null +++ b/BaBar_2014/ccbar_Dp_Kpipi_phsp.dec @@ -0,0 +1,21 @@ +################################################### +# # +# ccbar -> D+ X # +# D+ -> K- pi+ pi+ # +# D+ decays through phase space # +# # +# created: 09/25/01 - pompili@slac.stanford.edu # +# # +# 09/25/01: use filter_D+_from_ccbar.tcl # +# 02/06/02: use filter_D+_from_ccbar_pstarcut.tcl # +################################################### +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D+ +1.0 K- pi+ pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1m_Dsmpippim.dec b/BaBar_2014/ccbar_Ds1m_Dsmpippim.dec new file mode 100644 index 0000000..30f6474 --- /dev/null +++ b/BaBar_2014/ccbar_Ds1m_Dsmpippim.dec @@ -0,0 +1,107 @@ +# +# ccbar continuum production of: +# +# Ds1(2536)- --> D_s- pi+ pi- +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s+ states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +# +# Forced decay +# +Decay D'_s1- +1 myD_s- pi- pi+ PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Ds1m_Dsmpippim_kstar.dec b/BaBar_2014/ccbar_Ds1m_Dsmpippim_kstar.dec new file mode 100644 index 0000000..b27436c --- /dev/null +++ b/BaBar_2014/ccbar_Ds1m_Dsmpippim_kstar.dec @@ -0,0 +1,35 @@ +Alias MyDs+ D_s+ +Alias MyDs- D_s- +Alias KstarK K*0 + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1- +1.000 MyDs- pi+ pi- PHSP; +Enddecay +# +Decay MyDs- +1.000 KstarK K- SVS; +Enddecay +# +Decay KstarK +1.000 K+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1m_Dsmpippim_phi.dec b/BaBar_2014/ccbar_Ds1m_Dsmpippim_phi.dec new file mode 100644 index 0000000..8beed19 --- /dev/null +++ b/BaBar_2014/ccbar_Ds1m_Dsmpippim_phi.dec @@ -0,0 +1,35 @@ +Alias MyDs+ D_s+ +Alias MyDs- D_s- +Alias phiKK phi + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1- +1.000 MyDs- pi+ pi- PHSP; +Enddecay +# +Decay MyDs- +1.000 phiKK pi- SVS; +Enddecay +# +Decay phiKK +1.000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1m_DstarmKs0_antiD0Ks0pim_Kppimpimpippimpippim.dec b/BaBar_2014/ccbar_Ds1m_DstarmKs0_antiD0Ks0pim_Kppimpimpippimpippim.dec new file mode 100644 index 0000000..699217d --- /dev/null +++ b/BaBar_2014/ccbar_Ds1m_DstarmKs0_antiD0Ks0pim_Kppimpimpippimpippim.dec @@ -0,0 +1,41 @@ +Alias MyKS0 K_S0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias MyDstar+ D*+ +Alias MyDstar- D*- + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1- +1.000 MyDstar- MyKS0 PHSP; +Enddecay +# +Decay MyDstar- +1.000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyantiD0 +1.000 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay MyKS0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1m_antiD0starpim_antiD0Ks0pim_Kmpimpippimpim.dec b/BaBar_2014/ccbar_Ds1m_antiD0starpim_antiD0Ks0pim_Kmpimpippimpim.dec new file mode 100644 index 0000000..79afc6a --- /dev/null +++ b/BaBar_2014/ccbar_Ds1m_antiD0starpim_antiD0Ks0pim_Kmpimpippimpim.dec @@ -0,0 +1,34 @@ +Alias MyKS0 K_S0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias MyDstar+ D*+ +Alias MyDstar- D*- + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1- +1.000 MyDstar- MyKS0 PHSP; +Enddecay +# +Decay MyDstar- +1.000 MyantiD0 pi- VSS; +Enddecay +# +Decay MyantiD0 +1.000 K+ pi- PHSP; +Enddecay +# +Decay MyKS0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1p_D0starpip_D0Ks0pip_Kmpippippimpip.dec b/BaBar_2014/ccbar_Ds1p_D0starpip_D0Ks0pip_Kmpippippimpip.dec new file mode 100644 index 0000000..53133a2 --- /dev/null +++ b/BaBar_2014/ccbar_Ds1p_D0starpip_D0Ks0pip_Kmpippippimpip.dec @@ -0,0 +1,34 @@ +Alias MyKS0 K_S0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias MyDstar+ D*+ +Alias MyDstar- D*- + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1+ +1.000 MyDstar+ MyKS0 PHSP; +Enddecay +# +Decay MyDstar+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ PHSP; +Enddecay +# +Decay MyKS0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1p_Dsppippim.dec b/BaBar_2014/ccbar_Ds1p_Dsppippim.dec new file mode 100644 index 0000000..de8fdbd --- /dev/null +++ b/BaBar_2014/ccbar_Ds1p_Dsppippim.dec @@ -0,0 +1,107 @@ +# +# ccbar continuum production of: +# +# Ds1(2536)+ --> D_s+ pi+ pi- +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Forced decay +# +Decay D'_s1+ +1 myD_s+ pi+ pi- PHSP; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Ds1p_Dsppippim_kstar.dec b/BaBar_2014/ccbar_Ds1p_Dsppippim_kstar.dec new file mode 100644 index 0000000..2deb55d --- /dev/null +++ b/BaBar_2014/ccbar_Ds1p_Dsppippim_kstar.dec @@ -0,0 +1,35 @@ +Alias MyDs+ D_s+ +Alias MyDs- D_s- +Alias KstarK anti-K*0 + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1+ +1.000 MyDs+ pi+ pi- PHSP; +Enddecay +# +Decay MyDs+ +1.000 KstarK K+ SVS; +Enddecay +# +Decay KstarK +1.000 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1p_Dsppippim_phi.dec b/BaBar_2014/ccbar_Ds1p_Dsppippim_phi.dec new file mode 100644 index 0000000..c6fb546 --- /dev/null +++ b/BaBar_2014/ccbar_Ds1p_Dsppippim_phi.dec @@ -0,0 +1,35 @@ +Alias MyDs+ D_s+ +Alias MyDs- D_s- +Alias phiKK phi + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1+ +1.000 MyDs+ pi+ pi- PHSP; +Enddecay +# +Decay MyDs+ +1.000 phiKK pi+ SVS; +Enddecay +# +Decay phiKK +1.000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds1p_DstarpKs0_D0Ks0pip_Kmpippippimpippippim.dec b/BaBar_2014/ccbar_Ds1p_DstarpKs0_D0Ks0pip_Kmpippippimpippippim.dec new file mode 100644 index 0000000..b8db536 --- /dev/null +++ b/BaBar_2014/ccbar_Ds1p_DstarpKs0_D0Ks0pip_Kmpippippimpippippim.dec @@ -0,0 +1,41 @@ +Alias MyKS0 K_S0 +Alias MyD0 D0 +Alias MyantiD0 anti-D0 +Alias MyDstar+ D*+ +Alias MyDstar- D*- + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + +# +# Redefinition of D'_s1+, to match that of SP6, for +# SP5 compatibility +# +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D'_s1+ +1.000 MyDstar+ MyKS0 PHSP; +Enddecay +# +Decay MyDstar+ +1.000 MyD0 pi+ VSS; +Enddecay +# +Decay MyD0 +1.000 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay MyKS0 +1.000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_DsJ0_Dsmpip.dec b/BaBar_2014/ccbar_DsJ0_Dsmpip.dec new file mode 100644 index 0000000..54197b0 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ0_Dsmpip.dec @@ -0,0 +1,124 @@ +# +# ccbar continuum production of: +# +# "D_s(2317)0" --> D_s- pi+ +# | +# +--> K- K+ pi- +# +# where "D_s(2317)0" is the neutral counterpart (in, say, four-quark +# models) to the DsJ(2317)+. +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Redefinition to invent this new particle +# +Particle anti-D_2*0 2.3173 0.0001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# Our invented particle +# +Decay anti-D_2*0 + 1.0 myD_s- pi+ PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ0_Dsppim.dec b/BaBar_2014/ccbar_DsJ0_Dsppim.dec new file mode 100644 index 0000000..e9c169d --- /dev/null +++ b/BaBar_2014/ccbar_DsJ0_Dsppim.dec @@ -0,0 +1,123 @@ +# +# ccbar continuum production of: +# +# "D_s(2317)0" --> D_s+ pi- +# | +# +--> K+ K- pi+ +# +# where "D_s(2317)0" is the neutral counterpart (in, say, four-quark +# models) to the DsJ(2317)+. +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Redefinition to invent this new particle +# +Particle D_2*0 2.3173 0.0001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# Our invented particle +# +Decay D_2*0 + 1.0 myD_s+ pi- PHSP; +Enddecay + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317m_Dsm2gamma.dec b/BaBar_2014/ccbar_DsJ2317m_Dsm2gamma.dec new file mode 100644 index 0000000..5220a8c --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317m_Dsm2gamma.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)- --> D_s- gamma gamma +# | +# +--> K- K+ pi- +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)+ +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)- +# +Decay D_s0*- +1.000 myD_s- gamma gamma PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317m_Dsmgamma.dec b/BaBar_2014/ccbar_DsJ2317m_Dsmgamma.dec new file mode 100644 index 0000000..a9e3c1f --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317m_Dsmgamma.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)- --> D_s- gamma +# | +# +--> K- K+ pi- +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)+ +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)- +# +Decay D_s0*- +1.000 myD_s- gamma PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317m_Dsmpi0.dec b/BaBar_2014/ccbar_DsJ2317m_Dsmpi0.dec new file mode 100644 index 0000000..c1dd7db --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317m_Dsmpi0.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# D_s(2317)- --> D_s- pi0 +# | +# +--> K- K+ pi- +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 myD_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317m_Dsmpi0pi0.dec b/BaBar_2014/ccbar_DsJ2317m_Dsmpi0pi0.dec new file mode 100644 index 0000000..ed9bc46 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317m_Dsmpi0pi0.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)- --> D_s- pi0 pi0 +# | +# +--> K- K+ pi- +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)+ +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)- +# +Decay D_s0*- +1.000 myD_s- pi0 pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317m_Dsmpippim.dec b/BaBar_2014/ccbar_DsJ2317m_Dsmpippim.dec new file mode 100644 index 0000000..d262fdb --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317m_Dsmpippim.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)- --> D_s- pi+ pi- +# | +# +--> K- K+ pi- +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)+ +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)- +# +Decay D_s0*- +1.000 myD_s- pi+ pi- PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317m_Dstarmgamma.dec b/BaBar_2014/ccbar_DsJ2317m_Dstarmgamma.dec new file mode 100644 index 0000000..348e0f9 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317m_Dstarmgamma.dec @@ -0,0 +1,119 @@ +# +# ccbar continuum production of: +# +# D_s(2317)- --> D_s(2112)- gamma +# | +# +--> D_s- (pi0,gamma) +# | +# +--> K- K+ pi- +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*- D_s*- +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)+ +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)- +# +Decay D_s0*- +1.000 myD_s*- gamma PHSP; +Enddecay + +Decay myD_s*- +0.942 myD_s- gamma VSP_PWAVE; +0.058 myD_s- pi0 VSS; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317m_Dstarmpi0.dec b/BaBar_2014/ccbar_DsJ2317m_Dstarmpi0.dec new file mode 100644 index 0000000..711da92 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317m_Dstarmpi0.dec @@ -0,0 +1,119 @@ +# +# ccbar continuum production of: +# +# D_s(2317)- --> D_s(2112)- pi0 +# | +# +--> D_s- (pi0,gamma) +# | +# +--> K- K+ pi- +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*- D_s*- +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)+ +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)- +# +Decay D_s0*- +1.000 myD_s*- pi0 PHSP; +Enddecay + +Decay myD_s*- +0.942 myD_s- gamma VSP_PWAVE; +0.058 myD_s- pi0 VSS; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317p_Dsp2gamma.dec b/BaBar_2014/ccbar_DsJ2317p_Dsp2gamma.dec new file mode 100644 index 0000000..3b82939 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317p_Dsp2gamma.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)+ --> D_s+ gamma gamma +# | +# +--> K+ K- pi+ +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)+ +# +Decay D_s0*+ +1.000 myD_s+ gamma gamma PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)- +# +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317p_Dspgamma.dec b/BaBar_2014/ccbar_DsJ2317p_Dspgamma.dec new file mode 100644 index 0000000..eccf0a0 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317p_Dspgamma.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)+ --> D_s+ gamma +# | +# +--> K+ K- pi+ +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)+ +# +Decay D_s0*+ +1.000 myD_s+ gamma PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)- +# +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317p_Dsppi0.dec b/BaBar_2014/ccbar_DsJ2317p_Dsppi0.dec new file mode 100644 index 0000000..4f518a8 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317p_Dsppi0.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# D_s(2317)+ --> D_s+ pi0 +# | +# +--> K+ K- pi+ +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 myD_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317p_Dsppi0pi0.dec b/BaBar_2014/ccbar_DsJ2317p_Dsppi0pi0.dec new file mode 100644 index 0000000..03e8772 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317p_Dsppi0pi0.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)+ --> D_s+ pi0 pi0 +# | +# +--> K+ K- pi+ +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317) +# +Decay D_s0*+ +1.000 myD_s+ pi0 pi0 PHSP; +Enddecay + +# +# Correct decay of DsJ(2317)- +# +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317p_Dsppippim.dec b/BaBar_2014/ccbar_DsJ2317p_Dsppippim.dec new file mode 100644 index 0000000..c145817 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317p_Dsppippim.dec @@ -0,0 +1,111 @@ +# +# ccbar continuum production of: +# +# D_s(2317)+ --> D_s+ pi+ pi- +# | +# +--> K+ K- pi+ +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)+ +# +Decay D_s0*+ +1.000 myD_s+ pi+ pi- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317)- +# +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317p_Dstarpgamma.dec b/BaBar_2014/ccbar_DsJ2317p_Dstarpgamma.dec new file mode 100644 index 0000000..1a1e665 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317p_Dstarpgamma.dec @@ -0,0 +1,119 @@ +# +# ccbar continuum production of: +# +# D_s(2317)+ --> D_s(2112)+ gamma +# | +# +--> D_s+ (pi0,gamma) +# | +# +--> K+ K- pi+ +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*+ D_s*+ +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)+ +# +Decay D_s0*+ +1.000 myD_s*+ gamma PHSP; +Enddecay + +Decay myD_s*+ +0.942 myD_s+ gamma VSP_PWAVE; +0.058 myD_s+ pi0 VSS; +Enddecay + +# +# Correct decays of DsJ(2317)- +# +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2317p_Dstarppi0.dec b/BaBar_2014/ccbar_DsJ2317p_Dstarppi0.dec new file mode 100644 index 0000000..1882132 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2317p_Dstarppi0.dec @@ -0,0 +1,119 @@ +# +# ccbar continuum production of: +# +# D_s(2317)+ --> D_s(2112)+ pi0 +# | +# +--> D_s+ (pi0,gamma) +# | +# +--> K+ K- pi+ +# +# Also implements particle reassignment that is default in SP6, +# including correct DsJ(2317) and DsJ(2458) decays +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*+ D_s*+ +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2317)+ +# +Decay D_s0*+ +1.000 myD_s*+ pi0 PHSP; +Enddecay + +Decay myD_s*+ +0.942 myD_s+ gamma VSP_PWAVE; +0.058 myD_s+ pi0 VSS; +Enddecay + +# +# Correct decays of DsJ(2317)- +# +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458) +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_DsJ2317mgamma.dec b/BaBar_2014/ccbar_DsJ2458m_DsJ2317mgamma.dec new file mode 100644 index 0000000..3dd8fd6 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_DsJ2317mgamma.dec @@ -0,0 +1,117 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s*(2317)- gamma +# | +# +--> D_s- pi0 +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s0*- D_s0*- +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +Particle myD_s0*- 2.3173 0.0001 + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s0*- gamma PHSP; +Enddecay + +Decay myD_s0*- +1.000 myD_s- pi0 PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_Dsm2gamma.dec b/BaBar_2014/ccbar_DsJ2458m_Dsm2gamma.dec new file mode 100644 index 0000000..b67b141 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_Dsm2gamma.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s- gamma gamma +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s- gamma gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_Dsmgamma.dec b/BaBar_2014/ccbar_DsJ2458m_Dsmgamma.dec new file mode 100644 index 0000000..1fb1507 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_Dsmgamma.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s- gamma +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s- gamma PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_Dsmpi0.dec b/BaBar_2014/ccbar_DsJ2458m_Dsmpi0.dec new file mode 100644 index 0000000..b3262cb --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_Dsmpi0.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s- pi0 +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s- pi0 PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_Dsmpi0pi0.dec b/BaBar_2014/ccbar_DsJ2458m_Dsmpi0pi0.dec new file mode 100644 index 0000000..89250d9 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_Dsmpi0pi0.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s- pi0 pi0 +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s- pi0 pi0 PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_Dsmpippim.dec b/BaBar_2014/ccbar_DsJ2458m_Dsmpippim.dec new file mode 100644 index 0000000..4b61779 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_Dsmpippim.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s- pi+ pi- +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s- pi+ pi- PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_Dstarmgamma.dec b/BaBar_2014/ccbar_DsJ2458m_Dstarmgamma.dec new file mode 100644 index 0000000..249b6ab --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_Dstarmgamma.dec @@ -0,0 +1,116 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s*(2112)- gammma +# | +# +--> D_s- (pi0,gamma) +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*- D_s*- +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s*- gamma PHSP; +Enddecay + +Decay myD_s*- +0.942 myD_s- gamma VSP_PWAVE; +0.058 myD_s- pi0 VSS; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458m_Dstarmpi0.dec b/BaBar_2014/ccbar_DsJ2458m_Dstarmpi0.dec new file mode 100644 index 0000000..80b77df --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458m_Dstarmpi0.dec @@ -0,0 +1,116 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)- --> D_s*(2112)- pi0 +# | +# +--> D_s- (pi0,gamma) +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*- D_s*- +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)+ +# +Decay D_s1+ +0.8 D_s*+ pi0 PHSP; +0.2 D_s+ gamma PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)- +# +Decay D_s1- +0.8 myD_s*- pi0 PHSP; +Enddecay + +Decay myD_s*- +0.942 myD_s- gamma VSP_PWAVE; +0.058 myD_s- pi0 VSS; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_DsJ2317pgamma.dec b/BaBar_2014/ccbar_DsJ2458p_DsJ2317pgamma.dec new file mode 100644 index 0000000..844d0bb --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_DsJ2317pgamma.dec @@ -0,0 +1,117 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s*(2317)+ gamma +# | +# +--> D_s+ pi0 +# | +# +--> K K pi +# +# +# $Id: ccbar_DsJ2458+_DsJ2317+gamma.dec,v 1.2 2004/06/04 20:50:20 davidw Exp $ +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s0*+ D_s0*+ +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +Particle myD_s0*+ 2.3173 0.0001 + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s0*+ gamma PHSP; +Enddecay + +Decay myD_s0*+ +1.000 myD_s+ pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_Dsp2gamma.dec b/BaBar_2014/ccbar_DsJ2458p_Dsp2gamma.dec new file mode 100644 index 0000000..2b4aa21 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_Dsp2gamma.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s+ gamma gamma +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s+ gamma gamma PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_Dspgamma.dec b/BaBar_2014/ccbar_DsJ2458p_Dspgamma.dec new file mode 100644 index 0000000..2222121 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_Dspgamma.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s+ gamma +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s+ gamma PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_Dsppi0.dec b/BaBar_2014/ccbar_DsJ2458p_Dsppi0.dec new file mode 100644 index 0000000..124f5f0 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_Dsppi0.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s+ pi0 +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s+ pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_Dsppi0pi0.dec b/BaBar_2014/ccbar_DsJ2458p_Dsppi0pi0.dec new file mode 100644 index 0000000..c2993fe --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_Dsppi0pi0.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s+ pi0 pi0 +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s+ pi0 pi0 PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_Dsppippim.dec b/BaBar_2014/ccbar_DsJ2458p_Dsppippim.dec new file mode 100644 index 0000000..dcfcd22 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_Dsppippim.dec @@ -0,0 +1,108 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s+ pi+ pi- +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s+ pi+ pi- PHSP; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_Dstarpgamma.dec b/BaBar_2014/ccbar_DsJ2458p_Dstarpgamma.dec new file mode 100644 index 0000000..bb5c09e --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_Dstarpgamma.dec @@ -0,0 +1,116 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s*(2112)+ gammma +# | +# +--> D_s+ (pi0,gamma) +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*+ D_s*+ +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced (incorrect) decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s*+ gamma PHSP; +Enddecay + +Decay myD_s*+ +0.942 myD_s+ gamma VSP_PWAVE; +0.058 myD_s+ pi0 VSS; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2458p_Dstarppi0.dec b/BaBar_2014/ccbar_DsJ2458p_Dstarppi0.dec new file mode 100644 index 0000000..841e38d --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2458p_Dstarppi0.dec @@ -0,0 +1,116 @@ +# +# ccbar continuum production of: +# +# DsJ(2458)+ --> D_s*(2112)+ pi0 +# | +# +--> D_s+ (pi0,gamma) +# | +# +--> K K pi +# +# +# $Id +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.4580 0.0001 +Particle D_s1- 2.4580 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s*+ D_s*+ +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced decay of DsJ(2458)+ +# +Decay D_s1+ +0.8 myD_s*+ pi0 PHSP; +Enddecay + +Decay myD_s*+ +0.942 myD_s+ gamma VSP_PWAVE; +0.058 myD_s+ pi0 VSS; +Enddecay + +# +# Correct decays of DsJ(2458)- +# +Decay D_s1- +0.8 D_s*- pi0 PHSP; +0.2 D_s- gamma PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2636m_D0barKm.dec b/BaBar_2014/ccbar_DsJ2636m_D0barKm.dec new file mode 100644 index 0000000..7ae2043 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2636m_D0barKm.dec @@ -0,0 +1,90 @@ +# +# ccbar continuum production of the Selex state: +# +# DsJ(2636)- --> D0bar K- +# | +# +--> K+ pi- +# +# +# $Id: ccbar_DsJ2636-_D0barK-.dec,v 1.1 2004/06/22 00:26:30 davidw Exp $ +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.632 0.0001 +Particle D_s1- 2.632 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myanti-D0 anti-D0 + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced decay of hypothetical DsJ(2636)- +# +Decay D_s1+ +0.8 D0 K+ PHSP; +Enddecay + +Decay D_s1- +0.8 myanti-D0 K- PHSP; +Enddecay + + +# +# A D0 that decays only the way we want it to +# +Decay myanti-D0 +0.0385 K+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2636m_Dsmeta_gg.dec b/BaBar_2014/ccbar_DsJ2636m_Dsmeta_gg.dec new file mode 100644 index 0000000..ca75773 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2636m_Dsmeta_gg.dec @@ -0,0 +1,116 @@ +# +# ccbar continuum production of the Selex state: +# +# DsJ(2636)- --> D_s- eta +# | +# +--> K K pi +# +# +# $Id: ccbar_DsJ2636-_Ds-eta_gg.dec,v 1.1 2004/06/22 00:26:30 davidw Exp $ +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.636 0.0001 +Particle D_s1- 2.636 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s- D_s- +Alias myK*0 K*0 +Alias myphi phi + +# +# Alias needed to force eta -> 2gamma +# +Alias myeta eta + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced decay of hypothetical DsJ(2636)- +# +Decay D_s1+ +0.8 D_s+ eta PHSP; +Enddecay + +Decay D_s1- +0.8 myD_s- myeta PHSP; +Enddecay + + +# +# A D_s- that decays only the way we want it to +# +Decay myD_s- +0.5 myphi pi- SVS; +0.475 myK*0 K- SVS; +0.025 K- K+ pi- PHSP; +Enddecay + + +Decay myK*0 +1.000 K+ pi- VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +# +# An eta that decays only through gamma gamma +# +Decay myeta +1.0 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2636p_D0Kp.dec b/BaBar_2014/ccbar_DsJ2636p_D0Kp.dec new file mode 100644 index 0000000..66501a7 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2636p_D0Kp.dec @@ -0,0 +1,91 @@ +# +# ccbar continuum production of the Selex state: +# +# DsJ(2636)+ --> D0 K+ +# | +# +--> K- pi+ +# +# +# $Id: ccbar_DsJ2636+_D0K+.dec,v 1.1 2004/06/22 00:26:30 davidw Exp $ +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.632 0.0001 +Particle D_s1- 2.632 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D0 decay +# +Alias myD0 D0 + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced decay of hypothetical DsJ(2636)+ +# +Decay D_s1+ +0.8 myD0 K+ PHSP; +Enddecay + +Decay D_s1- +0.8 D0 K- PHSP; +Enddecay + + +# +# A D0 that decays only the way we want it to +# +Decay myD0 +# +0.0385 K- pi+ PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_DsJ2636p_Dspeta_gg.dec b/BaBar_2014/ccbar_DsJ2636p_Dspeta_gg.dec new file mode 100644 index 0000000..fc26906 --- /dev/null +++ b/BaBar_2014/ccbar_DsJ2636p_Dspeta_gg.dec @@ -0,0 +1,116 @@ +# +# ccbar continuum production of the Selex state: +# +# DsJ(2636)+ --> D_s+ eta +# | +# +--> K K pi +# +# +# $Id: ccbar_DsJ2636+_Ds+eta_gg.dec,v 1.1 2004/06/22 00:26:30 davidw Exp $ +# + +# +# The following parameters attempt to harden the p* distribution +# to better match data +# +JetSetPar PARJ(41)=.10 +JetSetPar PARJ(42)=.73 + + +# +# Redefinition of particles to correctly define DsJ(2317) +# and DsJ(2458) +# +Particle D_s0*+ 2.3173 0.0001 +Particle D_s0*- 2.3173 0.0001 +Particle D_s1+ 2.636 0.0001 +Particle D_s1- 2.636 0.0001 +Particle D'_s1+ 2.53535 0.001 +Particle D'_s1- 2.53535 0.001 + +# +# Aliases we need to force desired D_s+ decay +# +Alias myD_s+ D_s+ +Alias myanti-K*0 anti-K*0 +Alias myphi phi + +# +# Alias needed to force eta -> 2gamma +# +Alias myeta eta + +# +# Charm only +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Correct decay of D'_s states, now that we have "moved" them +# +Decay D'_s1+ +0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*+ PHSP; +0.0000 gamma D_s+ PHSP; +Enddecay + +Decay D'_s1- +0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; +0.0000 gamma D_s*- PHSP; +0.0000 gamma D_s- PHSP; +Enddecay + +# +# Correct decays of DsJ(2317) +# +Decay D_s0*+ +1.000 D_s+ pi0 PHSP; +Enddecay + +Decay D_s0*- +1.000 D_s- pi0 PHSP; +Enddecay + +# +# Forced decay of hypothetical DsJ(2636)+ +# +Decay D_s1+ +0.8 myD_s+ myeta PHSP; +Enddecay + +Decay D_s1- +0.8 D_s- eta PHSP; +Enddecay + + +# +# A D_s+ that decays only the way we want it to +# +Decay myD_s+ +0.5 myphi pi+ SVS; +0.475 myanti-K*0 K+ SVS; +0.025 K+ K- pi+ PHSP; +Enddecay + + +Decay myanti-K*0 +1.000 K- pi+ VSS; +Enddecay + + +Decay myphi +1.0 K+ K- VSS; +Enddecay + +# +# An eta that decays only through gamma gamma +# +Decay myeta +1.0 gamma gamma PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Ds_KpKmpipm_PHSP.dec b/BaBar_2014/ccbar_Ds_KpKmpipm_PHSP.dec new file mode 100644 index 0000000..debdc61 --- /dev/null +++ b/BaBar_2014/ccbar_Ds_KpKmpipm_PHSP.dec @@ -0,0 +1,25 @@ +################################################### +# # +# ccbar continuum production # +# Make a lot of Ds-> K+ K- pi+- decays # +# # +# created: H. Schmuecker Tue Jan 30 2000 # +# helmut@slac.stanford.edu # +################################################### + + + +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 K+ K- pi- PHSP; +Enddecay +# +Decay D_s+ +1.000 K+ K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Ds_KsKspipm_PHSP.dec b/BaBar_2014/ccbar_Ds_KsKspipm_PHSP.dec new file mode 100644 index 0000000..56c3b70 --- /dev/null +++ b/BaBar_2014/ccbar_Ds_KsKspipm_PHSP.dec @@ -0,0 +1,39 @@ +################################################### +# # +# ccbar continuum production # +# Make a lot of Ds-> K0s K0s pi+- decays # +# K0s -> pi+ pi- # +# # +# created: H. Schmuecker Tue Dec 16 2000 # +# helmut@slac.stanford.edu # +################################################### + + +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 MyK0 Myanti-K0 pi- PHSP; +Enddecay +# +Decay D_s+ +1.000 MyK0 Myanti-K0 pi+ PHSP; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsm_KpKmpim.dec b/BaBar_2014/ccbar_Dsm_KpKmpim.dec new file mode 100644 index 0000000..a3160f8 --- /dev/null +++ b/BaBar_2014/ccbar_Dsm_KpKmpim.dec @@ -0,0 +1,24 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 K+ K- pi- PHSP; +Enddecay +# +#Decay D_s+ +#1.000 K+ K- pi+ PHSP; +#Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsm_KpKmpimpi0_phsp.dec b/BaBar_2014/ccbar_Dsm_KpKmpimpi0_phsp.dec new file mode 100644 index 0000000..04dc94d --- /dev/null +++ b/BaBar_2014/ccbar_Dsm_KpKmpimpi0_phsp.dec @@ -0,0 +1,20 @@ +################################################### +# # +# ccbar -> Ds- X # +# Ds- -> K+ K- pi- pi0 # +# Ds- decays through phase space # +# # +# created: 04/20/04 - pompili@ba.infn.it # +# # +# 04/20/04: use filter_ccbar_Ds-.tcl # +################################################### +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 K+ K- pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsm_KsKspim.dec b/BaBar_2014/ccbar_Dsm_KsKspim.dec new file mode 100644 index 0000000..abbc4b5 --- /dev/null +++ b/BaBar_2014/ccbar_Dsm_KsKspim.dec @@ -0,0 +1,28 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 MyK0 Myanti-K0 pi- PHSP; +Enddecay +# +#Decay D_s+ +#1.000 MyK0 Myanti-K0 pi+ PHSP; +#Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsm_Phipim_KpKmpim.dec b/BaBar_2014/ccbar_Dsm_Phipim_KpKmpim.dec new file mode 100644 index 0000000..cb74a85 --- /dev/null +++ b/BaBar_2014/ccbar_Dsm_Phipim_KpKmpim.dec @@ -0,0 +1,21 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +Alias phiKK phi +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 phiKK pi- SVS; +Enddecay +# +#Decay D_s+ +#1.000 phiKK pi+ SVS; +#Enddecay +# +Decay phiKK +1.0 K+ K- VSS; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsm_phimphspmpipipi.dec b/BaBar_2014/ccbar_Dsm_phimphspmpipipi.dec new file mode 100644 index 0000000..2a6a5ea --- /dev/null +++ b/BaBar_2014/ccbar_Dsm_phimphspmpipipi.dec @@ -0,0 +1,26 @@ +################################################### +# # +# ccbar continuum production # +# Ds - -> phi pi+ pi- pi- decay # +# phi -> K+ K- (PHSP) # +# # +# created: K. Goetzen, 11/04/2002 # +# klausg@ep1.ruhr-uni-bochum.de # +################################################### + +Alias Myphi phi +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 Myphi pi+ pi- pi- PHSP; +Enddecay +# +Decay Myphi +1.000 K+ K- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dsm_pippimpim.dec b/BaBar_2014/ccbar_Dsm_pippimpim.dec new file mode 100644 index 0000000..df0e08d --- /dev/null +++ b/BaBar_2014/ccbar_Dsm_pippimpim.dec @@ -0,0 +1,24 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s- +1.000 pi+ pi- pi- PHSP; +Enddecay +# +#Decay D_s+ +#1.000 pi+ pi- pi+ PHSP; +#Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsp_KpKmpip.dec b/BaBar_2014/ccbar_Dsp_KpKmpip.dec new file mode 100644 index 0000000..32472f7 --- /dev/null +++ b/BaBar_2014/ccbar_Dsp_KpKmpip.dec @@ -0,0 +1,24 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +#Decay D_s- +#1.000 K+ K- pi- PHSP; +#Enddecay +# +Decay D_s+ +1.000 K+ K- pi+ PHSP; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsp_KpKmpippi0_phsp.dec b/BaBar_2014/ccbar_Dsp_KpKmpippi0_phsp.dec new file mode 100644 index 0000000..8055c69 --- /dev/null +++ b/BaBar_2014/ccbar_Dsp_KpKmpippi0_phsp.dec @@ -0,0 +1,20 @@ +################################################### +# # +# ccbar -> Ds+ X # +# Ds+ -> K+ K- pi+ pi0 # +# Ds+ decays through phase space # +# # +# created: 04/20/04 - pompili@ba.infn.it # +# # +# 04/20/04: use filter_ccbar_Ds+.tcl # +################################################### +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s+ +1.000 K+ K- pi+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsp_KsKspip.dec b/BaBar_2014/ccbar_Dsp_KsKspip.dec new file mode 100644 index 0000000..d38d1a1 --- /dev/null +++ b/BaBar_2014/ccbar_Dsp_KsKspip.dec @@ -0,0 +1,28 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +#Decay D_s- +#1.000 MyK0 Myanti-K0 pi- PHSP; +#Enddecay +# +Decay D_s+ +1.000 MyK0 Myanti-K0 pi+ PHSP; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay Myanti-K0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsp_Phipip_KpKmpip.dec b/BaBar_2014/ccbar_Dsp_Phipip_KpKmpip.dec new file mode 100644 index 0000000..2155b16 --- /dev/null +++ b/BaBar_2014/ccbar_Dsp_Phipip_KpKmpip.dec @@ -0,0 +1,21 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +Alias phiKK phi +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +#Decay D_s- +#1.000 phiKK pi- SVS; +#Enddecay +# +Decay D_s+ +1.000 phiKK pi+ SVS; +Enddecay +# +Decay phiKK +1.0 K+ K- VSS; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsp_phimphspmpipipi.dec b/BaBar_2014/ccbar_Dsp_phimphspmpipipi.dec new file mode 100644 index 0000000..e01f264 --- /dev/null +++ b/BaBar_2014/ccbar_Dsp_phimphspmpipipi.dec @@ -0,0 +1,26 @@ +################################################### +# # +# ccbar continuum production # +# Ds + -> phi pi+ pi- pi+ decay # +# phi -> K+ K- (PHSP) # +# # +# created: K. Goetzen, 11/04/2002 # +# klausg@ep1.ruhr-uni-bochum.de # +################################################### + +Alias Myphi phi +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s+ +1.000 Myphi pi+ pi- pi+ PHSP; +Enddecay +# +Decay Myphi +1.000 K+ K- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dsp_pippimpip.dec b/BaBar_2014/ccbar_Dsp_pippimpip.dec new file mode 100644 index 0000000..392b4a6 --- /dev/null +++ b/BaBar_2014/ccbar_Dsp_pippimpip.dec @@ -0,0 +1,24 @@ +Alias MyK0 K0 +Alias Myanti-K0 anti-K0 +Alias MyK_S0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +#Decay D_s- +#1.000 pi+ pi- pi- PHSP; +#Enddecay +# +Decay D_s+ +1.000 pi+ pi- pi+ PHSP; +Enddecay +# +Decay MyK0 +1.0000 MyK_S0 PHSP; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +End diff --git a/BaBar_2014/ccbar_Dsstarm_Dsgamma.dec b/BaBar_2014/ccbar_Dsstarm_Dsgamma.dec new file mode 100644 index 0000000..e905905 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarm_Dsgamma.dec @@ -0,0 +1,36 @@ +######################################################## +# # +# ccbar -> Ds*- X # +# | # +# +---> Ds- gamma # +# | # +# +---> phi pi- # +# | # +# +---> K+ K- # +# # +# Author: Martin Dickopp # +# # +######################################################## +# +Alias myD_s- D_s- +Alias myphi phi +# +# +# +Decay vpho +1.0000 JSCONT 4; +Enddecay +# +Decay D_s*- +1.0000 myD_s- gamma VSP_PWAVE; +Enddecay +# +Decay myD_s- +1.0000 myphi pi- SVS; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarm_Dsm_omegapi.dec b/BaBar_2014/ccbar_Dsstarm_Dsm_omegapi.dec new file mode 100644 index 0000000..17ac2e7 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarm_Dsm_omegapi.dec @@ -0,0 +1,26 @@ +####################################################### +# # +# Decay: ccbar -> Ds*- X # +# |->Ds- gamma # +# |->omega pi- # +# Author : Ping Wang, IHEP Beijing # +# Mail: wangp@SLAC.stanford.edu # +#Created: Nov 21, 2000 # +####################################################### +Alias myD_s+ D_s+ +Alias myD_s- D_s- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D_s*- +1.00 myD_s- gamma VSP_PWAVE; +Enddecay +# +Decay myD_s- +1.0000 omega pi- SVS; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dsstarm_Dsm_omegarho.dec b/BaBar_2014/ccbar_Dsstarm_Dsm_omegarho.dec new file mode 100644 index 0000000..77500b6 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarm_Dsm_omegarho.dec @@ -0,0 +1,24 @@ +####################################################### +# # +# Decay: ccbar -> Ds*- X # +# |->Ds- gamma # +# |->omega rho- # +# Author : Ping Wang, IHEP Beijing # +# Mail: wangp@SLAC.stanford.edu # +#Created: Nov 21, 2000 # +####################################################### +Alias myD_s- D_s- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D_s*- +1.00 myD_s- gamma VSP_PWAVE; +Enddecay +# +Decay myD_s- +1.0 omega rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarm_Dspi0.dec b/BaBar_2014/ccbar_Dsstarm_Dspi0.dec new file mode 100644 index 0000000..1511f2e --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarm_Dspi0.dec @@ -0,0 +1,36 @@ +######################################################## +# # +# ccbar -> Ds*- X # +# | # +# +---> Ds- pi0 # +# | # +# +---> phi pi- # +# | # +# +---> K+ K- # +# # +# Author: Martin Dickopp # +# # +######################################################## +# +Alias myD_s- D_s- +Alias myphi phi +# +# +# +Decay vpho +1.0000 JSCONT 4; +Enddecay +# +Decay D_s*- +1.0000 myD_s- pi0 VSS; +Enddecay +# +Decay myD_s- +1.0000 myphi pi- SVS; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarm_gDsm_munu.dec b/BaBar_2014/ccbar_Dsstarm_gDsm_munu.dec new file mode 100644 index 0000000..fa3a61b --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarm_gDsm_munu.dec @@ -0,0 +1,25 @@ +####################################################### +# # +# Decay: ccbar -> Ds*- X # +# |->Ds- gamma # +# |->mu- anti-nu_mu # +# should go with the tcl file ccbar_Dsstr-.tcl # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Mail: SCHUNEM@SLAC.STANFORD.EDU +# Created: 22/Feb/99 # +####################################################### +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D_s*- +1.00 D_s- gamma VSP_PWAVE; +Enddecay +# +Decay D_s- +1.0000 mu- anti-nu_mu PHOTOS SLN; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_Dsgamma.dec b/BaBar_2014/ccbar_Dsstarp_Dsgamma.dec new file mode 100644 index 0000000..4c11000 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_Dsgamma.dec @@ -0,0 +1,36 @@ +######################################################## +# # +# ccbar -> Ds*+ X # +# | # +# +---> Ds+ gamma # +# | # +# +---> phi pi+ # +# | # +# +---> K+ K- # +# # +# Author: Martin Dickopp # +# # +######################################################## +# +Alias myD_s+ D_s+ +Alias myphi phi +# +# +# +Decay vpho +1.0000 JSCONT 4; +Enddecay +# +Decay D_s*+ +1.0000 myD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay myD_s+ +1.0000 myphi pi+ SVS; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_Dsp_PhiRhop.dec b/BaBar_2014/ccbar_Dsstarp_Dsp_PhiRhop.dec new file mode 100644 index 0000000..6df9c3c --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_Dsp_PhiRhop.dec @@ -0,0 +1,35 @@ +################################################### +# # +# ccbar -> Ds*+ X # +# `->Ds+ X # +# `-> phi rho+ # +# `-> K+K- # +# # +# created: Dieter Best 10.July.2001 # +# best@slac.stanford.edu # +# # +################################################### +# +# redefine particle decays +# +Alias myD_s*+ D_s*+ +Alias myD_s+ D_s+ +Alias myphi phi +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay myD_s*+ +1.00 myD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay myD_s+ +1.00 myphi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +1.00 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_Dsp_kstarpgamma.dec b/BaBar_2014/ccbar_Dsstarp_Dsp_kstarpgamma.dec new file mode 100644 index 0000000..4d0eaed --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_Dsp_kstarpgamma.dec @@ -0,0 +1,38 @@ +####################################################### +# # +# Decay: ccbar -> Ds*+ X # +# `->Ds+ gamma # +# `-> K*+ gamma # +# # +# Author : Dieter Best, UC Irvine # +# Mail : best@SLAC.stanford.edu # +# # +# Created: 11.July.2001 # +# # +####################################################### +Alias myD_s*+ D_s*+ +Alias myD_s+ D_s+ +Alias myKstar+ K*+ +Alias myK_S0 K_S0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay myD_s*+ +1.00 myD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay myD_s+ +1.00 myKstar+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myKstar+ +1.00 myK_S0 pi+ VSS; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_Dsp_omegapi.dec b/BaBar_2014/ccbar_Dsstarp_Dsp_omegapi.dec new file mode 100644 index 0000000..e7349da --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_Dsp_omegapi.dec @@ -0,0 +1,24 @@ +####################################################### +# # +# Decay: ccbar -> Ds*+ X # +# |->Ds+ gamma # +# |->omega pi+ # +# Author : Ping Wang, IHEP Beijing # +# Mail: wangp@SLAC.stanford.edu # +#Created: Nov 21, 2000 # +####################################################### +Alias myD_s+ D_s+ +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D_s*+ +1.00 myD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay myD_s+ +1.0000 omega pi+ SVS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_Dsp_omegarho.dec b/BaBar_2014/ccbar_Dsstarp_Dsp_omegarho.dec new file mode 100644 index 0000000..1ef06a7 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_Dsp_omegarho.dec @@ -0,0 +1,24 @@ +####################################################### +# # +# Decay: ccbar -> Ds*+ X # +# |->Ds+ gamma # +# |->omega rho+ # +# Author : Ping Wang, IHEP Beijing # +# Mail: wangp@SLAC.stanford.edu # +#Created: Nov 21, 2000 # +####################################################### +Alias myD_s+ D_s+ +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D_s*+ +1.00 myD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay myD_s+ +1.0 omega rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_Dsp_rhopgamma.dec b/BaBar_2014/ccbar_Dsstarp_Dsp_rhopgamma.dec new file mode 100644 index 0000000..8eb3488 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_Dsp_rhopgamma.dec @@ -0,0 +1,27 @@ +####################################################### +# # +# Decay: ccbar -> Ds*+ X # +# `->Ds+ gamma # +# `-> rho+ gamma # +# # +# Author : Dieter Best, UC Irvine # +# Mail : best@SLAC.stanford.edu # +# # +# Created: 11.July.2001 # +# # +####################################################### +Alias myD_s+ D_s+ +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay D_s*+ +1.00 myD_s+ gamma VSP_PWAVE; +Enddecay +# +Decay myD_s+ +1.00 rho+ gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_Dspi0.dec b/BaBar_2014/ccbar_Dsstarp_Dspi0.dec new file mode 100644 index 0000000..c2b4ab1 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_Dspi0.dec @@ -0,0 +1,36 @@ +######################################################## +# # +# ccbar -> Ds*+ X # +# | # +# +---> Ds+ pi0 # +# | # +# +---> phi pi+ # +# | # +# +---> K+ K- # +# # +# Author: Martin Dickopp # +# # +######################################################## +# +Alias myD_s+ D_s+ +Alias myphi phi +# +# +# +Decay vpho +1.0000 JSCONT 4; +Enddecay +# +Decay D_s*+ +1.0000 myD_s+ pi0 VSS; +Enddecay +# +Decay myD_s+ +1.0000 myphi pi+ SVS; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dsstarp_gDsp_munu.dec b/BaBar_2014/ccbar_Dsstarp_gDsp_munu.dec new file mode 100644 index 0000000..912bd27 --- /dev/null +++ b/BaBar_2014/ccbar_Dsstarp_gDsp_munu.dec @@ -0,0 +1,25 @@ +####################################################### +# # +# Decay: ccbar -> Ds*+ X # +# |->Ds+ gamma # +# |->mu+ nu_mu # +# should go with the tcl file ccbar_Dsstr+.tcl # +# # +# Author: M.H. Schune + S. Plaszczynski # +# Mail: SCHUNEM@SLAC.STANFORD.EDU +# Created: 22/Feb/99 # +####################################################### +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D_s*+ +1.00 D_s+ gamma VSP_PWAVE; +Enddecay +# +Decay D_s+ +1.0000 mu+ nu_mu PHOTOS SLN; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0barpi_KKeta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarm_D0barpi_KKeta_gg_phsp.dec new file mode 100644 index 0000000..74fd506 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0barpi_KKeta_gg_phsp.dec @@ -0,0 +1,33 @@ +########################################################### +# # +# ccbar -> D*- X # +# D*- -> D0bar pi- # +# D0bar -> K+ K- eta # +# eta -> gamma gamma # +# D0bar decays through phase space # +# # +# created: 08/04/03 - pompili@slac.stanford.edu # +# # +########################################################### +# +Alias my-anti-D0 anti-D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.0 K+ K- my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarm_D0barpi_KKpi0_phsp.dec b/BaBar_2014/ccbar_Dstarm_D0barpi_KKpi0_phsp.dec new file mode 100644 index 0000000..d693ace --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0barpi_KKpi0_phsp.dec @@ -0,0 +1,28 @@ +###################################################### +# # +# ccbar -> D*- X # +# D*- -> D0bar pi- # +# D0bar -> K+ K- pi0 # +# D0bar decays through phase space # +# # +# created: 09/25/01 # +# antimo@ba.infn.it, pompili@ba.infn.it # +# # +###################################################### +# +Alias my-anti-D0 anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.0 K+ K- pi0 PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarm_D0barpi_Kpieta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpieta_gg_phsp.dec new file mode 100644 index 0000000..42a042b --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpieta_gg_phsp.dec @@ -0,0 +1,35 @@ +# +########################################################### +# # +# ccbar -> D*- X # +# D*- -> D0bar pi- # +# D0bar -> K+ pi- eta # +# eta -> gamma gamma # +# D0bar decays through phase space # +# # +# created: 09/25/01 - pompili@slac.stanford.edu # +# # +# 02/06/02: use filter_D0bar_from_Dstarminus_pstarcut.tcl # +########################################################### +# +Alias my-anti-D0 anti-D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.0 K+ pi- my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarm_D0barpi_Kpieta_pipipi0_phsp.dec b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpieta_pipipi0_phsp.dec new file mode 100644 index 0000000..79c1969 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpieta_pipipi0_phsp.dec @@ -0,0 +1,33 @@ +###################################################### +# # +# ccbar -> D*- X # +# D*- -> D0bar pi- # +# D0bar -> K+ pi- eta # +# eta -> pi+ pi- pi0 # +# D0bar decays through phase space # +# # +# created: 09/25/01 # +# antimo@ba.infn.it, pompili@ba.infn.it # +# # +###################################################### +# +Alias my-anti-D0 anti-D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.0 K+ pi- my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0barpi_Kpietap_pipieta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpietap_pipieta_gg_phsp.dec new file mode 100644 index 0000000..6f4d01e --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpietap_pipieta_gg_phsp.dec @@ -0,0 +1,35 @@ +###################################### +# ccbar -> D*- X, D*- -> D0bar pi- # +# D0bar -> K+ pi- eta' # +# eta' -> pi+ pi- eta # +# eta -> gamma gamma # +# D0bar decays through phase space # +# created: 08/23/03 # +# pompili@slac.stanford.edu # +###################################### +# +Alias my-anti-D0 anti-D0 +Alias my-eta' eta' +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.0 K+ pi- my-eta' PHSP; +Enddecay +# +Decay my-eta' +1.0 pi+ pi- my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0barpi_Kpipi0_phsp.dec b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpipi0_phsp.dec new file mode 100644 index 0000000..3eb548e --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0barpi_Kpipi0_phsp.dec @@ -0,0 +1,28 @@ +########################################################### +# # +# ccbar -> D*- X # +# D*- -> D0bar pi- # +# D0bar -> K+ pi- pi0 # +# D0bar decays through phase space # +# # +# created: 09/25/01 - pompili@slac.stanford.edu # +# # +# 02/06/02: use filter_D0bar_from_Dstarminus_pstarcut.tcl # +########################################################### +# +Alias my-anti-D0 anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.0 K+ pi- pi0 PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarm_D0barpi_pipieta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarm_D0barpi_pipieta_gg_phsp.dec new file mode 100644 index 0000000..628abe6 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0barpi_pipieta_gg_phsp.dec @@ -0,0 +1,130 @@ +##################################### +# ccbar -> D*- X, D*- -> D0bar pi- # +# D0bar -> pi+ pi- eta # +# eta -> gamma gamma # +# D0bar decays through phase space # +# created: 08/23/03 # +# pompili@slac.stanford.edu # +##################################### +# +Alias my-anti-D0 anti-D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.0 pi+ pi- my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K0KK_ps.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0KK_ps.dec new file mode 100644 index 0000000..8f69a1a --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0KK_ps.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K0s K+ K- # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# D0 decays via Phase space +0.0094 my-K0 K- K+ PHSP; +Enddecay +# +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kmpip_ps.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kmpip_ps.dec new file mode 100644 index 0000000..b4912b8 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kmpip_ps.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K0s K- pi+ # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# D0 decays via Phase space +0.0064 my-K0 K- pi+ PHSP; +Enddecay +# +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kppim_ps.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kppim_ps.dec new file mode 100644 index 0000000..6f76813 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0Kppim_ps.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K0s K+ pi- # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# D0 decays via Phase space +0.005 my-K0 pi- K+ PHSP; +Enddecay +# +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pi0.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pi0.dec new file mode 100644 index 0000000..6d9f95a --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pi0.dec @@ -0,0 +1,42 @@ + +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K0S pi0 # +# K0S -> pi+pi- # +# # +# created: Sunil Jayatilleke # +# sunilj@physics.uc.edu 07/09/01 # +################################################### + +Alias my-anti-D0 D0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 +#Alias my-D*- D*- + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +Decay D*- +1.00 my-anti-D0 pi- VSS; +Enddecay + +# +Decay my-anti-D0 +1.00 my-K0 pi0 PHSP; +Enddecay + +# +Decay my-K0 +1.00 my-K_S0 PHSP; +Enddecay + +# +Decay my-K_S0 +1.00 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi.dec new file mode 100644 index 0000000..4ab73a7 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi.dec @@ -0,0 +1,42 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K0s pi+ pi- # +# K0s -> pi+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# the Dalitz mode below includes K*(892)+ pi- and K0 rho(770)0 resonances +0.0540 my-K0 pi- pi+ D_DALITZ; +Enddecay +# +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi_ps.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi_ps.dec new file mode 100644 index 0000000..7f43848 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K0pipi_ps.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K0s pi+ pi- # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K0 K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# D0 decays via Phase space +0.0540 my-K0 pi- pi+ PHSP; +Enddecay +# +# +Decay my-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K3pi.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K3pi.dec new file mode 100644 index 0000000..e357460 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K3pi.dec @@ -0,0 +1,53 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ pi- pi+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-a_1- a_1- +Alias my-K*0 K*0 +Alias my-K_1+ K_1+ + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0360 my-a_1- K+ SVS; +0.0098 my-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 my-K_1+ pi- SVS; +0.0095 my-K*0 pi- pi+ PHSP; +0.0048 K+ pi- rho0 PHSP; +0.0176 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay my-K_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 my-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi- pi+ PHSP; +Enddecay +# +# +Decay my-a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K3piWS.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K3piWS.dec new file mode 100644 index 0000000..18bf330 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K3piWS.dec @@ -0,0 +1,53 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K- pi+ pi- pi+ WS# +# # +# created: Francisco Yumiceva 03/22/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-a_1+ a_1+ +Alias my-anti-K*0 anti-K*0 +Alias my-K_1- K_1- + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0360 my-a_1+ K- SVS; +0.0098 my-anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 my-K_1- pi+ SVS; +0.0095 my-anti-K*0 pi+ pi- PHSP; +0.0048 K- pi+ rho0 PHSP; +0.0176 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay my-K_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 my-anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +Enddecay +# +# +Decay my-a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0K4pi.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0K4pi.dec new file mode 100644 index 0000000..2984410 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0K4pi.dec @@ -0,0 +1,27 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> D0bar pi-, D0bar -> K0s pi+ pi- pi+ pi- # +# # +# created : F.Ferrarotto 3/9/02 # +# # +################################################### +# +Alias my-anti-D0 anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# Vector Mesons +# +Decay D*- +1.00 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.00 K_S0 pi+ pi+ pi- pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0KK.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0KK.dec new file mode 100644 index 0000000..1c045f2 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0KK.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ K- # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0044 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0KKpipi.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0KKpipi.dec new file mode 100644 index 0000000..b402bdd --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0KKpipi.dec @@ -0,0 +1,51 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ K- pi+ pi- # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K*0 K*0 +Alias my-anti-K*0 anti-K*0 +Alias my-phi phi + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0005 my-phi pi+ pi- PHSP; +0.0003 my-phi rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0005 my-K*0 K- pi+ PHSP; +0.0005 my-anti-K*0 K+ pi- PHSP; +0.0006 my-K*0 my-anti-K*0 PHSP; +0.0008 K+ K- pi+ pi- PHSP; +0.0009 K+ K- rho0 PHSP; +Enddecay +# +Decay my-phi +0.49 K+ K- VSS; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpi.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpi.dec new file mode 100644 index 0000000..a9fa706 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpi.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0385 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0KpiWS.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0KpiWS.dec new file mode 100644 index 0000000..61e0255 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0KpiWS.dec @@ -0,0 +1,32 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K- pi+ # +# # +# Note this is the Wrong sign decay! # +# # +# created: U. Egede 13/03/00 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0385 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0.dec new file mode 100644 index 0000000..a3fbac5 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0.dec @@ -0,0 +1,32 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ pi- pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +# the Dalitz mode below includes K*(892)0 pi0, K*(892)+ pi- +# and K+ rho(770)- resonances. +0.1307 K+ pi- pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0WS.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0WS.dec new file mode 100644 index 0000000..9122ea5 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0Kpipi0WS.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K- pi+ pi0 (WS) # +# # +# created: Francisco Yumiceva 03/22/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 +Alias my-K*- K*- +Alias my-anti-K*0 anti-K*0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.108 rho+ K- SVS; +0.017 my-K*- pi+ SVS; +0.021 my-anti-K*0 pi0 SVS; +0.0069 K- pi+ pi0 PHSP; +Enddecay +# +Decay my-K*- +0.3333 K- pi0 VSS; +Enddecay +# +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0emep.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0emep.dec new file mode 100644 index 0000000..37d7309 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0emep.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> e- e+ # +# # +# created: F. Yumiceva # +# yumiceva@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +1 e- e+ PHOTOS SLL; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0emmup.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0emmup.dec new file mode 100644 index 0000000..40b1b86 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0emmup.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> e- e+ # +# # +# created: F. Yumiceva # +# yumiceva@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +1 e+ mu- PHOTOS SLL; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0mummup.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0mummup.dec new file mode 100644 index 0000000..76e3519 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0mummup.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> e- e+ # +# # +# created: F. Yumiceva # +# yumiceva@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +1 mu- mu+ PHOTOS SLL; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0pi0pi0.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0pi0pi0.dec new file mode 100644 index 0000000..c4ddd7b --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0pi0pi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> pi0 pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0009 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0pipi.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0pipi.dec new file mode 100644 index 0000000..d292847 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0pipi.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> pi+ pi- # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0015 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0pipipi0.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0pipipi0.dec new file mode 100644 index 0000000..ed6b68e --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0pipipi0.dec @@ -0,0 +1,28 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> pi+ pi- pi0 # +# # +# # +# created: Sunil Jayatilleke 29/06/01 # +# sunilj@physics.uc.edu # +################################################### + +Alias my-anti-D0 anti-D0 +#Alias my-D*- D*- + +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.000 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +1.000 pi+ pi- pi0 PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_D0pipipipi.dec b/BaBar_2014/ccbar_Dstarm_D0pi_D0pipipipi.dec new file mode 100644 index 0000000..5431def --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_D0pipipipi.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> pi+ pi- pi+ pi- # +# # +# created: Francisco Yumiceva 07/10/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-anti-D0 anti-D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.6830 my-anti-D0 pi- VSS; +Enddecay +# +Decay my-anti-D0 +# +0.0074 pi+ pi+ pi- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_Kmepnu_WS.dec b/BaBar_2014/ccbar_Dstarm_D0pi_Kmepnu_WS.dec new file mode 100644 index 0000000..b82fc48 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_Kmepnu_WS.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K- e+ nu_e # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0bar anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K- e+ nu_e PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_Kmmupnu_WS.dec b/BaBar_2014/ccbar_Dstarm_D0pi_Kmmupnu_WS.dec new file mode 100644 index 0000000..a24dbb1 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_Kmmupnu_WS.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K- mu+ nu_mu # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0bar anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K- mu+ nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_Kpemnu.dec b/BaBar_2014/ccbar_Dstarm_D0pi_Kpemnu.dec new file mode 100644 index 0000000..033a8c3 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_Kpemnu.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ e- anti-nu_e # +# # +# created: kflood nov0499 # +################################################### +# +Alias myD0bar anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K+ e- anti-nu_e ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_Kpmumnu.dec b/BaBar_2014/ccbar_Dstarm_D0pi_Kpmumnu.dec new file mode 100644 index 0000000..3564b0f --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_Kpmumnu.dec @@ -0,0 +1,24 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> K+ mu- anti-nu_mu# +# # +# created: kflood nov0499 # +# Mail: KFLOOD@SLAC.STANFORD.EDU +################################################### +# +Alias myD0bar anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 K+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_D0pi_pipemnu.dec b/BaBar_2014/ccbar_Dstarm_D0pi_pipemnu.dec new file mode 100644 index 0000000..9bbad3f --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_D0pi_pipemnu.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> anti-D0 pi-, anti-D0 -> pi+ e- anti-nu_e # +# # +# created: weaver 15jun00 # +################################################### +# +Alias myD0bar anti-D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 myD0bar pi- VSS; +Enddecay +# +Decay myD0bar +1.00 pi+ e- anti-nu_e ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_Dmpi0_DmKKpi.dec b/BaBar_2014/ccbar_Dstarm_Dmpi0_DmKKpi.dec new file mode 100644 index 0000000..b7f92b0 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_Dmpi0_DmKKpi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> D- pi0, D- -> K- K+ pi- # +# # +# created: Francisco Yumiceva 09/24/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-D*- D*- +Alias my-D- D- +Alias my-phi phi +Alias my-K*0 K*0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# +# +Decay my-D*- +1.0 my-D- pi0 VSS; +Enddecay +# +# +Decay D- +# +0.003 my-phi pi- SVS; +0.0028 my-K*0 K- SVS; +0.0045 K- K+ pi- PHSP; +Enddecay +# +# +Decay my-phi +0.492 K- K+ VSS; +Enddecay +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_Dmpi0_DmKpipi.dec b/BaBar_2014/ccbar_Dstarm_Dmpi0_DmKpipi.dec new file mode 100644 index 0000000..9230b2e --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_Dmpi0_DmKpipi.dec @@ -0,0 +1,31 @@ +################################################### +# # +# ccbar continuum production # +# D*- -> D- pi0, D- -> K+ pi- pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D- D- + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*- +0.3060 my-D- pi0 VSS; +Enddecay +# +Decay my-D- +# +# the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. +0.0910 K+ pi- pi- D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_Dmpi0_Kpipi_phsp.dec b/BaBar_2014/ccbar_Dstarm_Dmpi0_Kpipi_phsp.dec new file mode 100644 index 0000000..242259a --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_Dmpi0_Kpipi_phsp.dec @@ -0,0 +1,28 @@ +###################################################### +# # +# ccbar -> D*- X # +# D*- -> D- pi0 # +# D- -> K+ pi- pi- # +# D- decays through phase space # +# # +# created: 09/25/01 # +# antimo@ba.infn.it, pompili@ba.infn.it # +# # +###################################################### +# +Alias my-D- D- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.0 my-D- pi0 VSS; +Enddecay +# +Decay my-D- +1.0 K+ pi- pi- PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarm_Dmpi0_Kppimpim_phsp.dec b/BaBar_2014/ccbar_Dstarm_Dmpi0_Kppimpim_phsp.dec new file mode 100644 index 0000000..401387e --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_Dmpi0_Kppimpim_phsp.dec @@ -0,0 +1,30 @@ +######################################################### +# # +# Decay: ccbar -> D*- X # +# |->D- pi0 # +# |->K+ pi- pi- (phase space) # +# # +# Best if used with a tcl file that filters # +# at the generator level for D* # +# # +# Dirk Hufnagel # +# Dec 04, 2003 # +# # +# Mail: hufnagel@slac.stanford.edu # +######################################################### + +Alias MyD- D- + +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.00 K+ pi- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_Dpi0_Kpi0.dec b/BaBar_2014/ccbar_Dstarm_Dpi0_Kpi0.dec new file mode 100644 index 0000000..7227de7 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_Dpi0_Kpi0.dec @@ -0,0 +1,30 @@ +######################################################### +# # +# Decay: ccbar -> D*- X # +# |->D- pi0 # +# |->K- pi0 # +# # +# Best if used with a tcl file that filters # +# at the generator level for D* # +# # +# Dirk Hufnagel # +# Dec 04, 2003 # +# # +# Mail: hufnagel@slac.stanford.edu # +######################################################### + +Alias MyD- D- + +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.00 K- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarm_Dpi0_pipi0.dec b/BaBar_2014/ccbar_Dstarm_Dpi0_pipi0.dec new file mode 100644 index 0000000..cc4365f --- /dev/null +++ b/BaBar_2014/ccbar_Dstarm_Dpi0_pipi0.dec @@ -0,0 +1,30 @@ +######################################################### +# # +# Decay: ccbar -> D*- X # +# |->D- pi0 # +# |->K- pi0 # +# # +# Best if used with a tcl file that filters # +# at the generator level for D* # +# # +# Dirk Hufnagel # +# Dec 04, 2003 # +# # +# Mail: hufnagel@slac.stanford.edu # +######################################################### + +Alias MyD- D- + +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*- +1.00 MyD- pi0 VSS; +Enddecay +# +Decay MyD- +1.00 pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K0KK_ps.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0KK_ps.dec new file mode 100644 index 0000000..ca8b180 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0KK_ps.dec @@ -0,0 +1,44 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K0s K+ K- # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-D0 D0 +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# D0 decays via Phase Space +0.0094 my-anti-K0 K+ K- PHSP; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kmpip_ps.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kmpip_ps.dec new file mode 100644 index 0000000..90bc409 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kmpip_ps.dec @@ -0,0 +1,44 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K0s K- pi+ # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-D0 D0 +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# D0 decays via Phase Space +0.0064 my-anti-K0 pi+ K- PHSP; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kppim_ps.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kppim_ps.dec new file mode 100644 index 0000000..e1e6c30 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0Kppim_ps.dec @@ -0,0 +1,44 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K0s K+ pi- # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-D0 D0 +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# D0 decays via Phase Space +0.005 my-anti-K0 K+ pi- PHSP; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pi0.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pi0.dec new file mode 100644 index 0000000..96c2c9e --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pi0.dec @@ -0,0 +1,48 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K0S pi0 # +# K0S -> pi+pi- # +# # +# created: Sunil Jayatilleke # +# sunilj@physics.uc.edu 07/09/01 # +################################################### +# + +Alias my-D0 D0 +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 +#Alias my-D*+ D*+ + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +Decay D*+ +1.00 my-D0 pi+ VSS; +Enddecay + +# +Decay my-D0 +1.00 my-anti-K0 pi0 PHSP; +Enddecay +# + +Decay my-anti-K0 +1.00 my-K_S0 PHSP; +Enddecay +# + +Decay my-K_S0 +1.00 pi+ pi- PHSP; +Enddecay + +End + + + + + + + diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi.dec new file mode 100644 index 0000000..172b772 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K0s pi+ pi- # +# K0s -> pi+ pi- # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances +0.0540 my-anti-K0 pi+ pi- D_DALITZ; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi_ps.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi_ps.dec new file mode 100644 index 0000000..8fcff53 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K0pipi_ps.dec @@ -0,0 +1,44 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K0s pi+ pi- # +# K0s -> pi+ pi- # +# D0 decays via Phase Space # +# # +# created: A. Palano 7/11/00 # +# antimo@ba.infn.it # +################################################### +# + +Alias my-D0 D0 +Alias my-anti-K0 anti-K0 +Alias my-K_S0 K_S0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# D0 decays via Phase Space +0.0540 my-anti-K0 pi+ pi- PHSP; +Enddecay +# +Decay my-anti-K0 +0.500 my-K_S0 PHSP; +Enddecay +# +Decay my-K_S0 +0.6861 pi+ pi- PHSP; +Enddecay + + +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K3pi.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K3pi.dec new file mode 100644 index 0000000..2254b78 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K3pi.dec @@ -0,0 +1,53 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K- pi+ pi- pi+ # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 +Alias my-a_1+ a_1+ +Alias my-anti-K*0 anti-K*0 +Alias my-K_1- K_1- + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0360 my-a_1+ K- SVS; +0.0098 my-anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 my-K_1- pi+ SVS; +0.0095 my-anti-K*0 pi+ pi- PHSP; +0.0048 K- pi+ rho0 PHSP; +0.0176 K- pi+ pi+ pi- PHSP; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay my-K_1- +0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 my-anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K- pi+ pi- PHSP; +Enddecay +# +# +Decay my-a_1+ +0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K3piWS.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K3piWS.dec new file mode 100644 index 0000000..2863962 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K3piWS.dec @@ -0,0 +1,53 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K+ pi- pi+ pi- (WS) # +# # +# created: Francisco Yumiceva 03/22/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-D0 D0 +Alias my-a_1- a_1- +Alias my-K*0 K*0 +Alias my-K_1+ K_1+ + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0360 my-a_1- K+ SVS; +0.0098 my-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0036 my-K_1+ pi- SVS; +0.0095 my-K*0 pi- pi+ PHSP; +0.0048 K+ pi- rho0 PHSP; +0.0176 K+ pi- pi- pi+ PHSP; +Enddecay +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +Decay my-K_1+ +0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.0710 my-K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.1444 K+ pi- pi+ PHSP; +Enddecay +# +# +Decay my-a_1- +0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0K4pi.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0K4pi.dec new file mode 100644 index 0000000..e14ec9d --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0K4pi.dec @@ -0,0 +1,27 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K0s pi+ pi- pi+ pi- # +# # +# created : F.Ferrarotto 3/9/02 # +# # +################################################### +# +Alias my-D0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# Vector Mesons +# +Decay D*+ +1.00 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.00 K_S0 pi+ pi+ pi- pi- PHSP; +Enddecay +# +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0KK.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0KK.dec new file mode 100644 index 0000000..8d6d14b --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0KK.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K- K+ # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0044 K+ K- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0KKpipi.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0KKpipi.dec new file mode 100644 index 0000000..0e3c25c --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0KKpipi.dec @@ -0,0 +1,50 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K- K+ pi+ pi- # +# # +# created: Francisco Yumiceva # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-D0 D0 +Alias my-K*0 K*0 +Alias my-anti-K*0 anti-K*0 +Alias my-phi phi +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0005 my-phi pi+ pi- PHSP; +0.0003 my-phi rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0005 my-K*0 K- pi+ PHSP; +0.0005 my-anti-K*0 K+ pi- PHSP; +0.0006 my-K*0 my-anti-K*0 PHSP; +0.0008 K+ K- pi+ pi- PHSP; +0.0009 K+ K- rho0 PHSP; +Enddecay +# +Decay my-phi +0.49 K+ K- VSS; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpi.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpi.dec new file mode 100644 index 0000000..94911db --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpi.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K- pi+ # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0385 K- pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0KpiWS.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0KpiWS.dec new file mode 100644 index 0000000..6d4adb0 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0KpiWS.dec @@ -0,0 +1,32 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K+ pi- # +# # +# Note this is the Wrong sign decay! # +# # +# created: U. Egede 13/03/00 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0385 K+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0.dec new file mode 100644 index 0000000..06db140 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0.dec @@ -0,0 +1,32 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K- pi+ pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +# the Dalitz mode below includes K*(892)0 pi0, K*(892)- pi+ +# and K- rho(770)+ resonances. +0.1307 K- pi+ pi0 D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0WS.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0WS.dec new file mode 100644 index 0000000..b75729b --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0Kpipi0WS.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K+ pi- pi0 (WS) # +# # +# created: Francisco Yumiceva 07/14/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-D0 D0 +Alias my-K*+ K*+ +Alias my-K*0 K*0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.108 rho- K+ SVS; +0.017 my-K*+ pi- SVS; +0.021 my-K*0 pi0 SVS; +0.0069 K+ pi- pi0 PHSP; +Enddecay +# +Decay my-K*+ +0.3333 K+ pi0 VSS; +Enddecay +# +# +Decay my-K*0 +0.6657 K+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0KstarGamma_KstarKppim.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0KstarGamma_KstarKppim.dec new file mode 100644 index 0000000..17c2d0c --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0KstarGamma_KstarKppim.dec @@ -0,0 +1,44 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> gamma K*0 # +# K*0 -> K+pi- # +# # +# author : Dieter Best # +# # +# email : best@slac.stanford.edu # +# # +# created: 09.July.2001 # +# # +################################################### +# +# Redefine some particles +# +Alias myD*+ D*+ +Alias myD0 D0 +Alias myK*0 K*0 +Alias myK*0bar K*0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay myD*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 myK*0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myK*0 +1.00 K+ pi- VSS; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0emep.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0emep.dec new file mode 100644 index 0000000..59b6c39 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0emep.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> e- e+ # +# # +# created: F. Yumiceva # +# yumiceva@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +1 e- e+ PHOTOS SLL; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0emmup.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0emmup.dec new file mode 100644 index 0000000..1c8c35f --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0emmup.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> e- e+ # +# # +# created: F. Yumiceva # +# yumiceva@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +1 e- mu+ PHOTOS SLL; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0gammaGamma.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0gammaGamma.dec new file mode 100644 index 0000000..00a683c --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0gammaGamma.dec @@ -0,0 +1,37 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> gamma gamma # +# # +# author : Dieter Best # +# # +# email : best@slac.stanford.edu # +# # +# created: 11.July.2001 # +# # +################################################### +# +# Redefine some particles +# +Alias myD0 D0 +Alias myD*+ D*+ +Alias myD*- D*- +# +ChargeConj myD*+ myD*- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay myD*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0mummup.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0mummup.dec new file mode 100644 index 0000000..6ab43af --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0mummup.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> e- e+ # +# # +# created: F. Yumiceva # +# yumiceva@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +1 mu- mu+ PHOTOS SLL; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0omegaGamma.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0omegaGamma.dec new file mode 100644 index 0000000..a1f86f3 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0omegaGamma.dec @@ -0,0 +1,45 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> gamma omega # +# omega -> pi+ pi- pi0 # +# # +# author : Dieter Best # +# # +# email : best@slac.stanford.edu # +# # +# created: 09.July.2001 # +# # +################################################### +# +# Redefine some particles +# +Alias myD0 D0 +Alias myD*+ D*+ +Alias myD*- D*- +Alias myomega omega +# +ChargeConj myD*+ myD*- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay myD*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myomega +1.00 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0omegaKstar_Kppim.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0omegaKstar_Kppim.dec new file mode 100644 index 0000000..6954ab8 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0omegaKstar_Kppim.dec @@ -0,0 +1,50 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> omega K*0 # +# K*0 -> K+pi- # +# # +# author : Dieter Best # +# # +# email : best@slac.stanford.edu # +# # +# created: 09.July.2001 # +# # +################################################### +# +# Redefine some particles +# +Alias myD0 D0 +Alias myD*+ D*+ +Alias myD*- D*- +Alias myomega omega +Alias myK*0 K*0 +# +ChargeConj myD*+ myD*- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay myD*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 myomega myK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myK*0 +1.0000 K+ pi- VSS; +Enddecay +# +Decay myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0phiGamma.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0phiGamma.dec new file mode 100644 index 0000000..aaf3353 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0phiGamma.dec @@ -0,0 +1,45 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> gamma phi # +# phi -> K+K- # +# # +# author : Dieter Best # +# # +# email : best@slac.stanford.edu # +# # +# created: 09.July.2001 # +# # +################################################### +# +# Redefine some particles +# +Alias myD*+ D*+ +Alias myD*- D*- +Alias myD0 D0 +Alias myphi phi +# +ChargeConj myD*+ myD*- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay myD*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 phi gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0phiomega.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0phiomega.dec new file mode 100644 index 0000000..c337b38 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0phiomega.dec @@ -0,0 +1,41 @@ +################################################### +# # +# ccbar continuum production # +# # +# D*+ -> D0 pi+, D0 -> phi omega # +# # +# author: Dieter Best 09.July.2001 # +# # +# email : best@slac.stanford.edu # +# # +################################################### +# +Alias myD0 D0 +Alias myphi phi +Alias myomega omega +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 myphi myomega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +Decay myomega +1.0000 pi- pi+ pi0 OMEGA_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0phirho0.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0phirho0.dec new file mode 100644 index 0000000..d93a35c --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0phirho0.dec @@ -0,0 +1,36 @@ +################################################### +# # +# ccbar continuum production # +# # +# D*+ -> D0 pi+, D0 -> phi rho0 # +# # +# author: Dieter Best 09.July.2001 # +# # +# email : best@slac.stanford.edu # +# # +################################################### +# +Alias myD0 D0 +Alias myphi phi +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 myphi rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myphi +1.0000 K+ K- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0pi0pi0.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0pi0pi0.dec new file mode 100644 index 0000000..f9c54ef --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0pi0pi0.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> pi0 pi0 # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0009 pi0 pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0pipi.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0pipi.dec new file mode 100644 index 0000000..a4ac295 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0pipi.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> pi+ pi- # +# # +# created: O. Long Jan13-00 # +# owen@slac.stanford.edu # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0015 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0pipipi0.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0pipipi0.dec new file mode 100644 index 0000000..920143d --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0pipipi0.dec @@ -0,0 +1,28 @@ + +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> pi- pi+ pi0 # +# # +# # +# created: Sunil Jayatilleke 29/06/01 # +# sunilj@physics.uc.edu # +################################################### + +Alias my-D0 D0 +#Alias my-D*+ D*+ + +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.000 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.000 pi- pi+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0pipipipi.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0pipipipi.dec new file mode 100644 index 0000000..df99650 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0pipipipi.dec @@ -0,0 +1,30 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> pi+ pi- pi+ pi- # +# # +# created: Francisco Yumiceva 07/13/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-D0 D0 + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.6830 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +# +0.0074 pi+ pi+ pi- pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Gamma.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Gamma.dec new file mode 100644 index 0000000..928ab73 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Gamma.dec @@ -0,0 +1,39 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> gamma rho0 # +# # +# author : Dieter Best # +# # +# email : best@slac.stanford.edu # +# # +# created: 09.July.2001 # +# # +################################################### +# +# Redefine some particles +# +Alias myD0 D0 +Alias myD*+ D*+ +Alias myD*- D*- +# +ChargeConj myD*+ myD*- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay myD*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Kstar_Kppim.dec b/BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Kstar_Kppim.dec new file mode 100644 index 0000000..e6a35cd --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_D0rho0Kstar_Kppim.dec @@ -0,0 +1,45 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> rho0 K*0 # +# K*0 -> K+pi- # +# # +# author : Dieter Best # +# # +# email : best@slac.stanford.edu # +# # +# created: 09.July.2001 # +# # +################################################### +# +# Redefine some particles +# +Alias myD0 D0 +Alias myD*+ D*+ +Alias myD*- D*- +Alias myK*0 K*0 +# +ChargeConj myD*+ myD*- +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +# 'Vector -> Scalar + Scalar' +# +Decay myD*+ +1.00 myD0 pi+ VSS; +Enddecay +# +# 'Scalar -> Vector Vector' +# +Decay myD0 +1.00 rho0 myK*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +Enddecay +# +Decay myK*0 +1.0000 K+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_KKeta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarp_D0pi_KKeta_gg_phsp.dec new file mode 100644 index 0000000..13417fc --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_KKeta_gg_phsp.dec @@ -0,0 +1,29 @@ +#################################### +# ccbar -> D*+ X , D*+ -> D0 pi+ # +# D0 -> K- K+ eta # +# eta -> gamma gamma # +# D0 decays through phase space # +# created: 08/23/03 # +# pompili@slac.stanford.edu # +#################################### +# +Alias my-D0 D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.0 K- K+ my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_KKpi0_phsp.dec b/BaBar_2014/ccbar_Dstarp_D0pi_KKpi0_phsp.dec new file mode 100644 index 0000000..569a718 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_KKpi0_phsp.dec @@ -0,0 +1,27 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> K- K+ pi0 # +# D0 decays through phase space # +# # +# created: 09/25/01 # +# antimo@ba.infn.it, pompili@ba.infn.it # +# # +################################################### +# +Alias my-D0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.0 K- K+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kmepnu.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kmepnu.dec new file mode 100644 index 0000000..7303f3d --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kmepnu.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K- e+ nu_e # +# # +# created: kflood nov0499 # +################################################### +# +Alias myD0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K- e+ nu_e ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kmmupnu.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kmmupnu.dec new file mode 100644 index 0000000..4eb4ff4 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kmmupnu.dec @@ -0,0 +1,24 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K- mu+ nu_mu # +# # +# created: kflood nov0499 # +# Mail: KFLOOD@SLAC.STANFORD.EDU +################################################### +# +Alias myD0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K- mu+ nu_mu ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kpemnu_WS.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kpemnu_WS.dec new file mode 100644 index 0000000..9188b84 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kpemnu_WS.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K+ e- anti-nu_e # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K+ e- anti-nu_e PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_gg_phsp.dec new file mode 100644 index 0000000..5e2da21 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_gg_phsp.dec @@ -0,0 +1,33 @@ +####################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> K- pi+ eta # +# eta -> gamma gamma # +# D0 decays through phase space # +# # +# created: 09/25/01 - pompili@slac.stanford.edu # +# # +# 02/06/02: use filter_D0_from_Dstarplus_pstarcut.tcl # +####################################################### +# +Alias my-D0 D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.0 K- pi+ my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_pipipi0_phsp.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_pipipi0_phsp.dec new file mode 100644 index 0000000..0048b08 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kpieta_pipipi0_phsp.dec @@ -0,0 +1,33 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> K- pi+ eta # +# eta -> pi+ pi- pi0 # +# D0 decays through phase space # +# # +# created: 09/25/01 # +# antimo@ba.infn.it, pompili@ba.infn.it # +# # +################################################### +# +Alias my-D0 D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.0 K- pi+ my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 pi+ pi- pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kpietap_pipieta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kpietap_pipieta_gg_phsp.dec new file mode 100644 index 0000000..123d31b --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kpietap_pipieta_gg_phsp.dec @@ -0,0 +1,35 @@ +################################## +# ccbar -> D*+ X, D*+ -> D0 pi+ # +# D0 -> K- pi+ eta' # +# eta' -> pi+ pi- eta # +# eta -> gamma gamma # +# D0 decays through phase space # +# created: 08/23/03 # +# pompili@slac.stanford.edu # +################################## +# +Alias my-D0 D0 +Alias my-eta' eta' +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.0 K- pi+ my-eta' PHSP; +Enddecay +# +Decay my-eta' +1.0 pi+ pi- my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kpipi0_phsp.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kpipi0_phsp.dec new file mode 100644 index 0000000..0a3ae39 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kpipi0_phsp.dec @@ -0,0 +1,27 @@ +####################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D0 pi+ # +# D0 -> K- pi+ pi0 # +# D0 decays through phase space # +# # +# created: 09/25/01 - pompili@slac.stanford.edu # +# # +# 02/06/02: use filter_D0_from_Dstarplus_pstarcut.tcl # +####################################################### +# +Alias my-D0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.0 K- pi+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_Kpmumnu_WS.dec b/BaBar_2014/ccbar_Dstarp_D0pi_Kpmumnu_WS.dec new file mode 100644 index 0000000..9b81eed --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_Kpmumnu_WS.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> K+ mu- anti-nu_mu # +# MIXED WRONG-SIGN DECAY # +# created: kflood aug2800 # +################################################### +# +Alias myD0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 K+ mu- anti-nu_mu PHOTOS ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_pimepnu.dec b/BaBar_2014/ccbar_Dstarp_D0pi_pimepnu.dec new file mode 100644 index 0000000..412ff25 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_pimepnu.dec @@ -0,0 +1,23 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D0 pi+, D0 -> pi- e+ nu_e # +# # +# created: weaver 15Jun00 # +################################################### +# +Alias myD0 D0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 myD0 pi+ VSS; +Enddecay +# +Decay myD0 +1.00 pi- e+ nu_e ISGW2; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_D0pi_pipieta_gg_phsp.dec b/BaBar_2014/ccbar_Dstarp_D0pi_pipieta_gg_phsp.dec new file mode 100644 index 0000000..d91015c --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_D0pi_pipieta_gg_phsp.dec @@ -0,0 +1,30 @@ +#################################### +# ccbar -> D*+ X , D*+ -> D0 pi+ # +# D0 -> pi- pi+ eta # +# eta -> gamma gamma # +# D0 decays through phase space # +# created: 08/23/03 # +# pompili@slac.stanford.edu # +#################################### +# +Alias my-D0 D0 +Alias my-eta eta +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D0 pi+ VSS; +Enddecay +# +Decay my-D0 +1.0 pi- pi+ my-eta PHSP; +Enddecay +# +Decay my-eta +1.0 gamma gamma PHSP; +Enddecay +# +End + diff --git a/BaBar_2014/ccbar_Dstarp_Dpi0_Kpi0.dec b/BaBar_2014/ccbar_Dstarp_Dpi0_Kpi0.dec new file mode 100644 index 0000000..75f0c59 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_Dpi0_Kpi0.dec @@ -0,0 +1,30 @@ +######################################################### +# # +# Decay: ccbar -> D*+ X # +# |->D+ pi0 # +# |->K+ pi0 # +# # +# Best if used with a tcl file that filters # +# at the generator level for D* # +# # +# Dirk Hufnagel # +# Dec 04, 2003 # +# # +# Mail: hufnagel@slac.stanford.edu # +######################################################### + +Alias MyD+ D+ + +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1.00 K+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_Dpi0_pipi0.dec b/BaBar_2014/ccbar_Dstarp_Dpi0_pipi0.dec new file mode 100644 index 0000000..40d50cc --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_Dpi0_pipi0.dec @@ -0,0 +1,30 @@ +######################################################### +# # +# Decay: ccbar -> D*+ X # +# |->D+ pi0 # +# |->K+ pi0 # +# # +# Best if used with a tcl file that filters # +# at the generator level for D* # +# # +# Dirk Hufnagel # +# Dec 04, 2003 # +# # +# Mail: hufnagel@slac.stanford.edu # +######################################################### + +Alias MyD+ D+ + +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1.00 pi+ pi0 PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_Dppi0_DpKKpi.dec b/BaBar_2014/ccbar_Dstarp_Dppi0_DpKKpi.dec new file mode 100644 index 0000000..1c6695f --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_Dppi0_DpKKpi.dec @@ -0,0 +1,44 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D+ pi0, D+ -> K+ K- pi+ # +# # +# created: Francisco Yumiceva 09/24/01 # +# yumiceva@beauty.physics.sc.edu # +################################################### +# + +Alias my-D*+ D*+ +Alias my-D+ D+ +Alias my-phi phi +Alias my-anti-K*0 anti-K*0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# +# +Decay my-D*+ +1.0 my-D+ pi0 VSS; +Enddecay +# +# +Decay D+ +# +0.003 my-phi pi+ SVS; +0.0028 my-anti-K*0 K+ SVS; +0.0045 K+ K- pi+ PHSP; +Enddecay +# +# +Decay my-phi +0.492 K+ K- VSS; +Enddecay +# +Decay my-anti-K*0 +0.6657 K- pi+ VSS; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_Dppi0_DpKpipi.dec b/BaBar_2014/ccbar_Dstarp_Dppi0_DpKpipi.dec new file mode 100644 index 0000000..1dfc750 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_Dppi0_DpKpipi.dec @@ -0,0 +1,32 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D+ pi0, D+ -> K- pi+ pi+ # +# # +# created: U. Egede 27/10/99 # +# U.Egede@rl.ac.uk # +################################################### +# + +Alias my-D+ D+ + +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +0.3060 my-D+ pi0 VSS; +Enddecay +# +Decay my-D+ +# +# the Dalitz mode below includes K*bar(892)0 pi+, +# K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. +0.0910 K- pi+ pi+ D_DALITZ; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_Dppi0_DpKshortpipi0.dec b/BaBar_2014/ccbar_Dstarp_Dppi0_DpKshortpipi0.dec new file mode 100644 index 0000000..d27d57f --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_Dppi0_DpKshortpipi0.dec @@ -0,0 +1,43 @@ +################################################### +# # +# ccbar continuum production # +# D*+ -> D+ pi0, D+ -> KS pi+ pi0 # +# and C.C. # +# created: G.Cavoto # +# # +################################################### +# + +Alias my-D+ D+ +Alias my-D- D- +Alias my-K_S0 K_S0 +# +Decay vpho +1.00 JSCONT 4; +Enddecay + +# +# Vector Mesons +# +Decay D*+ +1. my-D+ pi0 VSS; +Enddecay +# +Decay my-D+ +1. my-K_S0 pi0 pi+ PHSP; +Enddecay +# +Decay D*- +1. my-D- pi0 VSS; +Enddecay +# +Decay my-D- +1. my-K_S0 pi0 pi- PHSP; +Enddecay +# +Decay my-K_S0 +1.000 pi+ pi- PHSP; +Enddecay + +# +End diff --git a/BaBar_2014/ccbar_Dstarp_Dppi0_Kmpippip_phsp.dec b/BaBar_2014/ccbar_Dstarp_Dppi0_Kmpippip_phsp.dec new file mode 100644 index 0000000..fd1df5d --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_Dppi0_Kmpippip_phsp.dec @@ -0,0 +1,30 @@ +######################################################### +# # +# Decay: ccbar -> D*+ X # +# |->D+ pi0 # +# |->K- pi+ pi+ (phase space) # +# # +# Best if used with a tcl file that filters # +# at the generator level for D* # +# # +# Dirk Hufnagel # +# Dec 04, 2003 # +# # +# Mail: hufnagel@slac.stanford.edu # +######################################################### + +Alias MyD+ D+ + +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 MyD+ pi0 VSS; +Enddecay +# +Decay MyD+ +1.00 K- pi+ pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_Dppi0_Kpipi_phsp.dec b/BaBar_2014/ccbar_Dstarp_Dppi0_Kpipi_phsp.dec new file mode 100644 index 0000000..4bf25e2 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_Dppi0_Kpipi_phsp.dec @@ -0,0 +1,27 @@ +################################################### +# # +# ccbar -> D*+ X # +# D*+ -> D+ pi0 # +# D+ -> K- pi+ pi+ # +# D+ decays through phase space # +# # +# created: 09/25/01 # +# antimo@ba.infn.it, pompili@ba.infn.it # +# # +################################################### +# +Alias my-D+ D+ +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.0 my-D+ pi0 VSS; +Enddecay +# +Decay my-D+ +1.0 K- pi+ pi+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_gDp_munu.dec b/BaBar_2014/ccbar_Dstarp_gDp_munu.dec new file mode 100644 index 0000000..fd69eeb --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_gDp_munu.dec @@ -0,0 +1,25 @@ +####################################################### +# # +# Decay: ccbar -> D*+ X # +# |->D+ gamma # +# |->mu+ nu_mu # +# Best if used with a tcl file that filters # +# at the generator level for for D* # +# Joe Izen # +# Jan 27, 2000 # +# Mail: JOE@SLAC.STANFORD.EDU +####################################################### +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 D+ gamma VSP_PWAVE; +Enddecay +# +Decay D+ +1.0000 mu+ nu_mu PHOTOS SLN; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Dstarp_pi0Dp_munu.dec b/BaBar_2014/ccbar_Dstarp_pi0Dp_munu.dec new file mode 100644 index 0000000..8d85fd3 --- /dev/null +++ b/BaBar_2014/ccbar_Dstarp_pi0Dp_munu.dec @@ -0,0 +1,25 @@ +####################################################### +# # +# Decay: ccbar -> D*+ X # +# |->D+ pi0 # +# |->mu+ nu_mu # +# Best if used with a tcl file that filters # +# at the generator level for for D* # +# Joe Izen # +# Jan 27, 2000 # +# Mail: JOE@SLAC.STANFORD.EDU +####################################################### +# +Decay vpho +1.00 JSCONT 4; +Enddecay +# +Decay D*+ +1.00 D+ pi0 VSS; +Enddecay +# +Decay D+ +1.0000 mu+ nu_mu PHOTOS SLN; +Enddecay +# +End diff --git a/BaBar_2014/ccbar_Lambda_cp_Lambda3pi.dec b/BaBar_2014/ccbar_Lambda_cp_Lambda3pi.dec new file mode 100644 index 0000000..90861b2 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Lambda3pi.dec @@ -0,0 +1,27 @@ +################################################### +# ccbar continum production # +# Lambda_c+ -> Lambda0 pi+ pi- pi+ # +# Lambda0 -> pi+ pi- # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias MyLambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 MyLambda0 pi+ pi- pi+ PHSP; +Enddecay + +Decay MyLambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_Lambda_cp_Lambdak.dec b/BaBar_2014/ccbar_Lambda_cp_Lambdak.dec new file mode 100644 index 0000000..f6915de --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Lambdak.dec @@ -0,0 +1,29 @@ +################################################### +# ccbar continum Production # +# Lambda_c+ -> Lamda0 k+ # +# Lambda0 -> p+ pi- # +# # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Lambda0 K+ PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_Lambda_cp_Lambdakpi0.dec b/BaBar_2014/ccbar_Lambda_cp_Lambdakpi0.dec new file mode 100644 index 0000000..feaf8b8 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Lambdakpi0.dec @@ -0,0 +1,29 @@ +################################################### +# ccbar Continum Production # +# Lambda_c+ -> Lamda0 k+ pi0 # +# Lambda0 -> p+ pi- # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Lambda0 K+ pi0 PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# +# + + + diff --git a/BaBar_2014/ccbar_Lambda_cp_Lambdakpipi.dec b/BaBar_2014/ccbar_Lambda_cp_Lambdakpipi.dec new file mode 100644 index 0000000..51644fd --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Lambdakpipi.dec @@ -0,0 +1,28 @@ +################################################### +# ccbar continum production # +# Lambda_c+ -> Lamda0 K+ pi+ pi- # +# Lambda0 -> p+ pi- # +# # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Lambda0 K+ pi+ pi- PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# + + diff --git a/BaBar_2014/ccbar_Lambda_cp_Lambdapi.dec b/BaBar_2014/ccbar_Lambda_cp_Lambdapi.dec new file mode 100644 index 0000000..bffda35 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Lambdapi.dec @@ -0,0 +1,29 @@ +################################################### +# ccbar Continum production # +# Lambda_c+ -> Lamda0 pi+ # +# Lambda0 -> p+ pi- # +# # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Lambda0 pi+ PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_Lambda_cp_Lambdapi0pi.dec b/BaBar_2014/ccbar_Lambda_cp_Lambdapi0pi.dec new file mode 100644 index 0000000..7e29371 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Lambdapi0pi.dec @@ -0,0 +1,27 @@ +####################################################### +# ccbar continum production # +# Lambda_c+ -> Lambda0 pi+ pi0 # +# Lambda0 -> pi+ pi- # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +####################################################### +# +Alias MyLambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 MyLambda0 pi+ pi0 PHSP; +Enddecay + +Decay MyLambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_Lambda_cp_Lambdarho.dec b/BaBar_2014/ccbar_Lambda_cp_Lambdarho.dec new file mode 100644 index 0000000..a3f5b8d --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Lambdarho.dec @@ -0,0 +1,32 @@ +####################################################### +# ccbar continum production # +# Lambda_c+ -> Lambda0 rho+ # +# Lambda0 -> pi+ pi- # +# rho+->pi+ pi0 # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +####################################################### +# +Alias MyLambda0 Lambda0 +Alias Myrho+ rho+ +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 MyLambda0 rho+ PHSP; +Enddecay +# +Decay MyLambda0 +1.000 p+ pi- PHSP; +Enddecay +# +Decay Myrho+ +1.000 pi+ pi0 PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_Lambda_cp_Pks.dec b/BaBar_2014/ccbar_Lambda_cp_Pks.dec new file mode 100644 index 0000000..36ae6b7 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Pks.dec @@ -0,0 +1,28 @@ +################################################### +# ccbar continum production # +# Lambda_c+ -> P+ K_S0 # +# K_S0 -> pi+ pi- # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias My-AntiK0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 p+ My-AntiK0 PHSP; +Enddecay +# +# +Decay My-AntiK0 +1.000 pi+ pi- PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_Lambda_cp_Pks2pi.dec b/BaBar_2014/ccbar_Lambda_cp_Pks2pi.dec new file mode 100644 index 0000000..6063678 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Pks2pi.dec @@ -0,0 +1,27 @@ +################################################### +# ccbar continum production # +# Lambda_c+ -> P+ K_S0 pi+ pi- # +# K_S0 -> pi+ pi- # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias My-AntiK0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 p+ My-AntiK0 pi+ pi- PHSP; +Enddecay +# +Decay My-AntiK0 +1.000 pi+ pi- PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_Lambda_cp_Sigmak.dec b/BaBar_2014/ccbar_Lambda_cp_Sigmak.dec new file mode 100755 index 0000000..fd0617b --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Sigmak.dec @@ -0,0 +1,34 @@ +################################################### +# ccbar Continum production # +# Lambda_c+ -> Sigma0 K+ # +# Sigma0 -> Lambda0 gamma # +# Lambda0 -> p+ pi- # +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Sigma0 Sigma0 +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Sigma0 K+ PHSP; +Enddecay + +Decay my-Sigma0 +1.000 my-Lambda0 gamma PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_Lambda_cp_Sigmakpi0.dec b/BaBar_2014/ccbar_Lambda_cp_Sigmakpi0.dec new file mode 100755 index 0000000..b5d89b2 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Sigmakpi0.dec @@ -0,0 +1,34 @@ +################################################### +# ccbar Continum production # +# Lambda_c+ -> Sigma0 K+ pi0 # +# Sigma0 -> Lambda0 gamma # +# Lambda0 -> p+ pi- # +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Sigma0 Sigma0 +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Sigma0 K+ pi0 PHSP; +Enddecay + +Decay my-Sigma0 +1.000 my-Lambda0 gamma PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_Lambda_cp_Sigmakpipi.dec b/BaBar_2014/ccbar_Lambda_cp_Sigmakpipi.dec new file mode 100755 index 0000000..cdb1fc6 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Sigmakpipi.dec @@ -0,0 +1,34 @@ +################################################### +# ccbar Continum production # +# Lambda_c+ -> Sigma0 K+ pi+ pi- # +# Sigma0 -> Lambda0 gamma # +# Lambda0 -> p+ pi- # +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Sigma0 Sigma0 +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Sigma0 K+ pi+ pi- PHSP; +Enddecay + +Decay my-Sigma0 +1.000 my-Lambda0 gamma PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_Lambda_cp_Sigmapi.dec b/BaBar_2014/ccbar_Lambda_cp_Sigmapi.dec new file mode 100755 index 0000000..b942215 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_Sigmapi.dec @@ -0,0 +1,34 @@ +################################################### +# ccbar Continum production # +# Lambda_c+ -> Sigma0 pi+ # +# Sigma0 -> Lambda0 gamma # +# Lambda0 -> p+ pi- # +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-Sigma0 Sigma0 +Alias my-Lambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 my-Sigma0 pi+ PHSP; +Enddecay + +Decay my-Sigma0 +1.000 my-Lambda0 gamma PHSP; +Enddecay + +Decay my-Lambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_Lambda_cp_XiKpi.dec b/BaBar_2014/ccbar_Lambda_cp_XiKpi.dec new file mode 100644 index 0000000..cc291f0 --- /dev/null +++ b/BaBar_2014/ccbar_Lambda_cp_XiKpi.dec @@ -0,0 +1,32 @@ +################################################### +# ccbar continum production # +# Lambda_c+ -> Xi- K+ pi+ # +# Xi- -> Lambda0 pi- # +# Lambda0 -> p+ pi- # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias MyXi- Xi- +Alias MyLambda0 Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay Lambda_c+ +1.000 MyXi- K+ pi+ PHSP; +Enddecay +# +Decay MyXi- +1.000 MyLambda0 pi- PHSP; +Enddecay +# +Decay MyLambda0 +1.000 p+ pi- PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Lambda3pi.dec b/BaBar_2014/ccbar_antimLambda_cm_Lambda3pi.dec new file mode 100644 index 0000000..9f7e4a3 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Lambda3pi.dec @@ -0,0 +1,28 @@ +################################################### +# ccbar continum production # +# Anti_Lambda_c- ->Anti_Lambda0 pi- pi+ pi- # +# Anti_Lambda0 ->anti-p- pi+ # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Lambda0 pi- pi+ pi- PHSP; +Enddecay +# +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Lambdak.dec b/BaBar_2014/ccbar_antimLambda_cm_Lambdak.dec new file mode 100644 index 0000000..b1b0ba3 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Lambdak.dec @@ -0,0 +1,30 @@ +################################################### +# ccbar Continum production # +# anti-Lambad_c- -> anti-Lamda0 K- # +# anti-Lambda0 -> anti-p- pi+ # +# # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Lambda0 K- PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Lambdakpi0.dec b/BaBar_2014/ccbar_antimLambda_cm_Lambdakpi0.dec new file mode 100644 index 0000000..510301f --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Lambdakpi0.dec @@ -0,0 +1,30 @@ +################################################### +# ccbar Continum Production # +# anti-Lambda_c- -> anti-Lamda0 K- pi0 # +# anti-Lambda0 -> anti-p- pi+ # +# # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Lambda0 K- pi0 PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Lambdakpipi.dec b/BaBar_2014/ccbar_antimLambda_cm_Lambdakpipi.dec new file mode 100644 index 0000000..caaf4ea --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Lambdakpipi.dec @@ -0,0 +1,30 @@ +################################################### +# ccbar Continum Production # +# anti-Lambad_c- -> anti-Lamda0 K- pi- pi+ # +# anti-Lambda0 -> anti-p- pi+ # +# # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Lambda0 K- pi- pi+ PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Lambdapi.dec b/BaBar_2014/ccbar_antimLambda_cm_Lambdapi.dec new file mode 100644 index 0000000..bca04df --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Lambdapi.dec @@ -0,0 +1,29 @@ +################################################### +# ccbar Continum Production # +# anti-Lambda_c- -> anti-Lamda0 pi- # +# anti-Lambda0 -> anti-p pi+ # +# # +# # +# created: 04/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +################################################### +# +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Lambda0 pi- PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Lambdapi0pi.dec b/BaBar_2014/ccbar_antimLambda_cm_Lambdapi0pi.dec new file mode 100644 index 0000000..f2a6b84 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Lambdapi0pi.dec @@ -0,0 +1,28 @@ +################################################### +# ccbar continum production # +# Anti_Lambda_c- ->Anti_Lambda0 pi- pi0 # +# Anti_Lambda0 ->anti-p- pi+ # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Lambda0 pi- pi0 PHSP; +Enddecay +# +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Lambdarho.dec b/BaBar_2014/ccbar_antimLambda_cm_Lambdarho.dec new file mode 100644 index 0000000..94348c3 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Lambdarho.dec @@ -0,0 +1,32 @@ +################################################### +# ccbar continum production # +# Anti_Lambda_c- ->Anti_Lambda0 rho- # +# Anti_Lambda0 ->anti-p- pi+ # +# rho- ->pi- pi0 # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias my-anti-Lambda0 anti-Lambda0 +Alias myrho- rho- +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Lambda0 rho- PHSP; +Enddecay +# +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +# +Decay myrho- +1.000 pi- pi0 PHSP; +Enddecay +End +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Pks.dec b/BaBar_2014/ccbar_antimLambda_cm_Pks.dec new file mode 100644 index 0000000..a92de3a --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Pks.dec @@ -0,0 +1,27 @@ +################################################### +# ccbar continum production # +#Anti-Lambda_c--> anti-P- K_S0 # +# K_S0 -> pi+ pi- # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias MyK0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 anti-p- MyK0 PHSP; +Enddecay +# +Decay MyK0 +1.000 pi+ pi- PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Pks2pi.dec b/BaBar_2014/ccbar_antimLambda_cm_Pks2pi.dec new file mode 100644 index 0000000..3c0b6f4 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Pks2pi.dec @@ -0,0 +1,27 @@ +################################################### +# ccbar continum production # +# Lambda_c- -> P+ K_S0 pi+ pi- # +# K_S0 -> pi+ pi- # +# # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias MyK0 K_S0 +# +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 anti-p- MyK0 pi- pi+ PHSP; +Enddecay +# +Decay MyK0 +1.000 pi+ pi- PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Sigmak.dec b/BaBar_2014/ccbar_antimLambda_cm_Sigmak.dec new file mode 100755 index 0000000..3effb90 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Sigmak.dec @@ -0,0 +1,34 @@ +####################################################### +# ccbar Continum Production # +# anti-Lambda_c- -> anti-Sigma0 K- # +# anti-Sigma0 -> anti-Lambda0 gamma # +# anti-Lambda0 -> anti-p pi+# +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +####################################################### +# +Alias my-anti-Sigma0 anti-Sigma0 +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Sigma0 K- PHSP; +Enddecay + +Decay my-anti-Sigma0 +1.000 my-anti-Lambda0 gamma PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Sigmakpi0.dec b/BaBar_2014/ccbar_antimLambda_cm_Sigmakpi0.dec new file mode 100755 index 0000000..c963e93 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Sigmakpi0.dec @@ -0,0 +1,34 @@ +####################################################### +# ccbar Continum Production # +# anti-Lambda_c- -> anti-Sigma0 K- pi0 # +# anti-Sigma0 -> anti-Lambda0 gamma # +# anti-Lambda0 -> anti-p- pi+# +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +####################################################### +# +Alias my-anti-Sigma0 anti-Sigma0 +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Sigma0 K- pi0 PHSP; +Enddecay + +Decay my-anti-Sigma0 +1.000 my-anti-Lambda0 gamma PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Sigmakpipi.dec b/BaBar_2014/ccbar_antimLambda_cm_Sigmakpipi.dec new file mode 100755 index 0000000..7176018 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Sigmakpipi.dec @@ -0,0 +1,34 @@ +####################################################### +# ccbar Continum Production # +# anti-Lambda_c- -> anti-Sigma0 K- pi- pi+ # +# anti-Sigma0 -> anti-Lambda0 gamma # +# anti-Lambda0 -> anti-p- pi+# +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +####################################################### +# +Alias my-anti-Sigma0 anti-Sigma0 +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Sigma0 K- pi- pi+ PHSP; +Enddecay + +Decay my-anti-Sigma0 +1.000 my-anti-Lambda0 gamma PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_Sigmapi.dec b/BaBar_2014/ccbar_antimLambda_cm_Sigmapi.dec new file mode 100755 index 0000000..c8b1c1f --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_Sigmapi.dec @@ -0,0 +1,34 @@ +####################################################### +# ccbar Continum Production # +# anti-Lambda_c- -> anti-Sigma0 pi- # +# anti-Sigma0 -> anti-Lambda0 gamma # +# anti-Lambda0 -> anti-p pi+# +# # +# created: 08/02/03 - Saleem # +# saleem@slac.stanford.edu # +# # +####################################################### +# +Alias my-anti-Sigma0 anti-Sigma0 +Alias my-anti-Lambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 my-anti-Sigma0 pi- PHSP; +Enddecay + +Decay my-anti-Sigma0 +1.000 my-anti-Lambda0 gamma PHSP; +Enddecay + +Decay my-anti-Lambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# +# + + diff --git a/BaBar_2014/ccbar_antimLambda_cm_XiKpi.dec b/BaBar_2014/ccbar_antimLambda_cm_XiKpi.dec new file mode 100644 index 0000000..c029786 --- /dev/null +++ b/BaBar_2014/ccbar_antimLambda_cm_XiKpi.dec @@ -0,0 +1,32 @@ +################################################### +# ccbar continum production # +# Lambda_c- -> Xi+ K- pi- # +# Xi+ -> antiLambda0 pi+ # +# antiLambda0 -> anti-p- pi+ # +# # +# created: 07/18/03 - M A Saeed # +# saeed@slac.stanford.edu # +# # +################################################### +# +Alias MyXi+ anti-Xi+ +Alias My-AntiLambda0 anti-Lambda0 + +Decay vpho +1.0 JSCONT 4; +Enddecay +# +Decay anti-Lambda_c- +1.000 MyXi+ K- pi- PHSP; +Enddecay +# +Decay MyXi+ +1.000 My-AntiLambda0 pi+ PHSP; +Enddecay +# +Decay My-AntiLambda0 +1.000 anti-p- pi+ PHSP; +Enddecay +End +# + diff --git a/BaBar_2014/ccbarmoff.dec b/BaBar_2014/ccbarmoff.dec new file mode 100644 index 0000000..52d4bf5 --- /dev/null +++ b/BaBar_2014/ccbarmoff.dec @@ -0,0 +1,7 @@ +# +# Force the fragmentation to produce a ccbar pair +# Intended for use in generating off-resonance ccbar data. C. Hearty +Decay vpho +1.0 JSCONT 4; +Enddecay +End diff --git a/BaBar_2014/eta_cKp.dec b/BaBar_2014/eta_cKp.dec new file mode 100644 index 0000000..a67f526 --- /dev/null +++ b/BaBar_2014/eta_cKp.dec @@ -0,0 +1,33 @@ +####################################################### +# # +# Decay: B--> Eta_c K- B+->X # +# | # +# |-> p p-bar # +# + cc # +# # +# Author: Roy Aleksan # +# Created: 27 February/02 # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +Alias MyEta_c eta_c +# +Decay Upsilon(4S) +0.5 B+ MyB- VSS; +0.5 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.0000 MyEta_c K- PHSP; +Enddecay +# +Decay MyB+ +1.0000 MyEta_c K+ PHSP; +Enddecay +# +Decay MyEta_c +1.0000 p+ anti-p- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/jpsi_Dplus_Dstar.dec b/BaBar_2014/jpsi_Dplus_Dstar.dec new file mode 100644 index 0000000..8107dc9 --- /dev/null +++ b/BaBar_2014/jpsi_Dplus_Dstar.dec @@ -0,0 +1,84 @@ +######################################################################## +# # +# vpho -> J/psi D+ D*- # +# -> J/psi D0 anti-D*0 # +# -> J/psi D*0 anti-D0 # +# -> J/psi D*+ D- # +# # +# williamg@utdallas.edu # +# # +######################################################################## + + + +Alias myD0 D0 +Alias myD+ D+ +Alias myD- D- +Alias myanti-D0 anti-D0 + + + +Decay vpho +#1.00 J/psi eta_c PHSP; +0.2500 J/psi D+ D*- PHSP; +0.2500 J/psi D0 anti-D*0 PHSP; +0.2500 J/psi D*0 anti-D0 PHSP; +0.2500 J/psi D*+ D- PHSP; +Enddecay + + +Decay D*- +1.00 myanti-D0 pi- PHSP; +Enddecay + +Decay D*+ +1.00 myD0 pi+ PHSP; +Enddecay + +Decay myD0 +0.038 K- pi+ PHSP; +0.0043 K+ K- PHSP; +#0.0094 anti-K0 K+ K- PHSP; + 0.0047 K_S0 K+ K- PHSP; +Enddecay + +Decay myanti-D0 +0.038 K+ pi- PHSP; +0.0043 K+ K- PHSP; +#0.0094 anti-K0 K+ K- PHSP; + 0.0047 K_S0 K+ K- PHSP; +Enddecay + + +Decay myD+ +0.09 K- pi+ pi+ PHSP; +#0.029 anti-K0 pi+ PHSP; + 0.0145 K_S0 pi+ PHSP; +Enddecay + +Decay myD- +0.09 K+ pi- pi- PHSP; +#0.029 anti-K0 pi+ PHSP; + 0.0145 K_S0 pi- PHSP; +Enddecay + + +Decay J/psi +0.500 e+ e- VLL; +0.500 mu+ mu- VLL; +Enddecay + +End + + + + + + + + + + + + + diff --git a/BaBar_2014/nosignal.dec b/BaBar_2014/nosignal.dec new file mode 100644 index 0000000..4c235cf --- /dev/null +++ b/BaBar_2014/nosignal.dec @@ -0,0 +1,21 @@ +################################################### +# # +# Upsilon(4S)-> nu_e anti-nu_e + c.c. # +# # +# This Decay file is written for the # +# simulation upgrade # +# # +# author Valerie Halyo # +# created Tue Jun 5 2001 # +################################################### +# +# +# +Decay Upsilon(4S) +1 nu_e anti-nu_e PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/ppbarKp.dec b/BaBar_2014/ppbarKp.dec new file mode 100644 index 0000000..a43642c --- /dev/null +++ b/BaBar_2014/ppbarKp.dec @@ -0,0 +1,26 @@ +####################################################### +# # +# Decay: B-->ppbarK- B+->X # +# +cc # +# # +# Author: Roy Aleksan # +# Created: 04/February/02 # +####################################################### +# +Alias MyB- B- +Alias MyB+ B+ +# +Decay Upsilon(4S) +0.500 B+ MyB- VSS; +0.500 B- MyB+ VSS; +Enddecay +# +Decay MyB- +1.000 p+ anti-p- K- PHSP; +Enddecay +# +Decay MyB+ +1.000 p+ anti-p- K+ PHSP; +Enddecay +# +End diff --git a/BaBar_2014/qa_B0B_psiK0s_3.dec b/BaBar_2014/qa_B0B_psiK0s_3.dec new file mode 100644 index 0000000..4b6c47f --- /dev/null +++ b/BaBar_2014/qa_B0B_psiK0s_3.dec @@ -0,0 +1,42 @@ +############################################################ +# # +# Decay: anti-B0 -> Psi K0s, B0 -> X # +# |-> e+e- |->pi+pi- # +# |-> mu+mu- # +# # +# Comments: No mixing reco sample # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/corrected 10/May/98 # +# Mail: HASAN@SLAC.STANFORD.EDU +############################################################ +# +# +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 1.1845 +Define minusTwoBeta -2.369 +# +Decay Upsilon(4S) +1.0000 B0 Myanti-B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay MyJ/psi +0.5000 e+ e- PHOTOS VLL; +0.5000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End + + + diff --git a/BaBar_2014/qa_B0B_rhoppim.dec b/BaBar_2014/qa_B0B_rhoppim.dec new file mode 100644 index 0000000..5779d5c --- /dev/null +++ b/BaBar_2014/qa_B0B_rhoppim.dec @@ -0,0 +1,23 @@ +################################################### +# # +# Decay: anti-B0 -> rho+ pi-, B0 -> X # +# # +# Comments: No mixing, for reco work # +# # +# Author: A. Hasan # +# created: 12/April/98 # +# modified/corrected: 10/May/98 # +################################################### +# +# +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.0000 B0 Myanti-B0 VSS; +Enddecay +# +Decay Myanti-B0 +1.0000 rho+ pi- SVS; +Enddecay +# +End diff --git a/BaBar_2014/qa_B0B_rhoppim_1.dec b/BaBar_2014/qa_B0B_rhoppim_1.dec new file mode 100644 index 0000000..1317056 --- /dev/null +++ b/BaBar_2014/qa_B0B_rhoppim_1.dec @@ -0,0 +1,27 @@ +################################################### +# # +# Decay: anti-B0 -> rho+ pi-, B0 -> nu nubar # +# # +# Comments: No mixing, for QA work # +# # +# Author: D. Aston # +# created: 20/December/1999 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.0000 MyB0 Myanti-B0 VSS; +Enddecay +# +Decay MyB0 +1.0000 nu_e anti-nu_e PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 rho+ pi- SVS; +Enddecay +# +End diff --git a/BaBar_2014/qa_B0_Kppim.dec b/BaBar_2014/qa_B0_Kppim.dec new file mode 100644 index 0000000..9386585 --- /dev/null +++ b/BaBar_2014/qa_B0_Kppim.dec @@ -0,0 +1,28 @@ +################################################### +# # +# Decay: B0 -> K+ pi-, anti-B0 -> nu nubar # +# # +# Comments: No mixing, for reco work # +# # +# Author: A. Hasan # +# created: 12/April/98 # +# modified/corrected: 10/May/98 # +################################################### +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +# +Decay Upsilon(4S) +1.0000 MyB0 Myanti-B0 VSS; +Enddecay +# +Decay MyB0 +1.0000 K+ pi- PHSP; +Enddecay +# +Decay Myanti-B0 +1.0000 nu_e anti-nu_e PHSP; +Enddecay +# +End diff --git a/BaBar_2014/qa_B0_psiK0s_1.dec b/BaBar_2014/qa_B0_psiK0s_1.dec new file mode 100644 index 0000000..6f4fde4 --- /dev/null +++ b/BaBar_2014/qa_B0_psiK0s_1.dec @@ -0,0 +1,42 @@ +########################################################## +# # +# Decay: B0 -> Psi K0s, anti-B0 -> nu nubar # +# |-> mu+mu- |->pi+pi- # +# # +# Comments: No mixing reco sample # +# # +# Author: A. Hasan # +# Created: 12/April/98 # +# Modified/created 10/May/98 # +# Mail: HASAN@SLAC.STANFORD.EDU +########################################################## +# +# +Alias MyB0 B0 +Alias Myanti-B0 anti-B0 +Alias MyJ/psi J/psi +Alias MyK_S0 K_S0 +Define beta 1.1845 +Define minusTwoBeta -2.369 +# +Decay Upsilon(4S) +1.0000 MyB0 Myanti-B0 VSS; +Enddecay +# +Decay MyB0 +1.0000 MyJ/psi MyK_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; +Enddecay +# +Decay Myanti-B0 +1.0000 nu_e anti-nu_e PHSP; +Enddecay +# +Decay MyJ/psi +1.0000 mu+ mu- PHOTOS VLL; +Enddecay +# +Decay MyK_S0 +1.0000 pi+ pi- PHSP; +Enddecay +# +End diff --git a/BaBar_2014/rare1.dec b/BaBar_2014/rare1.dec new file mode 100644 index 0000000..2d5b268 --- /dev/null +++ b/BaBar_2014/rare1.dec @@ -0,0 +1,445 @@ + #################################################### + # # + # Decay: B -> all non-charm final states # + # # + # Author: J. Smith # + # Created: September 27, 2000 # + # Modified: September 21, 2001 # + # # + ##################################################### + +# +# + +# +Decay Upsilon(4S) +0.500 B+ B- VSS; +0.500 B0 anti-B0 VSS; +Enddecay + +#Define the B0B0bar mass difference +Define dm 0.472e12 +Define dgamma 0 +Define qoverp 1 +Define phaseqoverp 0 +# define the values of the CKM angles (alpha=70, beta=40) +Define alpha 1.365 +Define beta 0.39 +Define gamma 1.387 +Define twoBetaPlusGamma 2.167 +Define betaPlusHalfGamma 1.0835 + +# New definitions for psiKstar modes (Lange, July 26, 2000) +Define PKHplus 0.159 +Define PKHzero 0.775 +Define PKHminus 0.612 +Define PKphHplus 1.563 +Define PKphHzero 0.0 +Define PKphHminus 2.712 + +Define Aplus 0.490 +Define Azero 1.10 +Define Aminus 0.4 +# +Define phAplus 2.5 +Define phAzero 0.0 +Define phAminus -0.17 + +# +# These particle aliases are used in for CP violating decays +# in which the decay distributions depends on how the K* decayed. +# +# +Alias K*L K*0 +Alias K*S K*0 +Alias K*0T K*0 +Alias anti-K*0T anti-K*0 +Alias K*BR anti-K*0 +Alias K*0R K*0 +Alias anti-K_0*0N anti-K_0*0 +Alias K_0*0N K_0*0 +# +ChargeConj K*0T anti-K*0T +ChargeConj K_0*0N anti-K_0*0N +ChargeConj K*0R K*BR +# +#JetSet parameter modifications +# +# O.Long : March 30, 2000 +# Change from using Peterson fragmentation to Lund fragmentation +# with the default parameters (A=0.30, B=0.58) +# +#(Very important that there are no blank spaces in the parameter string!) +# Number of flavor produced. 4 = udsc production (was 5 before) +JetSetPar MSTJ(104)=5 +# turn on initial state radiation (was off before) +JetSetPar MSTJ(107)=1 +#use Lund fragmentation with default parameters +JetSetPar MSTJ(11)=4 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(41)=.30 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(42)=.58 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(43)=.50 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(44)=.90 +#eps_c from CLEO 8/97 +JetSetPar PARJ(54)=-.040 +# eps_b +JetSetPar PARJ(55)=-.004 +#Turn of B0-B0B mixing in JetSet: +JetSetPar MSTJ(26)=0 +# control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1 +JetSetPar PARJ(14)=0.05 +JetSetPar PARJ(15)=0.05 +JetSetPar PARJ(16)=0.05 +JetSetPar PARJ(17)=0.05 +#cut-off parameter used to stop fragmentation process (was .4, CLEO uses.3) +JetSetPar PARJ(33)=0.3 +# +### Parameters below are a new tuning of the continuum +### fragmentation that softens the pion spectrum +### but commented out untill verified to be physically +### sound. ryd 00-02-10 +### Lund symmetric fragmentation function parameter a +##JetSetPar PARJ(41)=.40 +### Lund symmetric fragmentation function parameter b +##JetSetPar PARJ(42)=.29 +### Lund symmetric fragmentation function parameter a +##JetSetPar PARJ(43)=.60 +### Lund symmetric fragmentation function parameter b +##JetSetPar PARJ(44)=.45 +###eps_c from CLEO 8/97 +##JetSetPar PARJ(54)=-.040 +##JetSetPar PARJ(46)=0.0 +##JetSetPar PARJ(33)=0.2 +###End of new continuum tuning +# +Decay anti-B0 +# +# b -> u l nu +# +# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV. +# with some thresholds to gradually switch from excl. to incl. +# modeling without big jumps keeping the better known excl. +# Brs at their actual values and constrain the incl. Br and +# weights in a way that ~40% of the total BR belongs to +# the mass region > 1.5 GeV +# +0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; +0.000260 rho+ e- anti-nu_e PHOTOS ISGW2; +0.000165 a_1+ e- anti-nu_e PHOTOS ISGW2; +0.000102 b_1+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_0+ e- anti-nu_e PHOTOS ISGW2; +0.000014 a_2+ e- anti-nu_e PHOTOS ISGW2; +0.000000 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; +0.000616 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +0.000180 pi+ mu- anti-nu_mu PHOTOS ISGW2; +0.000260 rho+ mu- anti-nu_mu PHOTOS ISGW2; +0.000165 a_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000102 b_1+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_0+ mu- anti-nu_mu PHOTOS ISGW2; +0.000014 a_2+ mu- anti-nu_mu PHOTOS ISGW2; +0.000000 rho(2S)+ mu- anti-nu_mu PHOTOS ISGW2; +0.000616 Xu+ mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +# +0.000060 pi+ tau- anti-nu_tau ISGW2; +0.000083 rho+ tau- anti-nu_tau ISGW2; +0.000090 a_1+ tau- anti-nu_tau ISGW2; +0.000008 b_1+ tau- anti-nu_tau ISGW2; +0.000008 a_0+ tau- anti-nu_tau ISGW2; +0.000008 a_2+ tau- anti-nu_tau ISGW2; +0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; +# +# +0.000045 anti-K*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 anti-K_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 anti-K'_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 anti-K'*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 anti-K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 anti-K''*0 gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 anti-Xsd gamma BTOXSGAMMA 2 ; +# +0.00000057 anti-K0 e+ e- PHOTOS BTOSLLBALL; +0.0000023 anti-K*0 e+ e- PHOTOS BTOSLLBALL; +0.000004 anti-Xsd e+ e- PHOTOS BTOXSLL; +0.00000057 anti-K0 mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL; +0.000004 anti-Xsd mu+ mu- PHOTOS BTOXSLL; +0.00000013 anti-K0 tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 anti-K*0 tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 anti-Xsd tau+ tau- PHOTOS BTOXSLL; +# +# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036 +# +# (pi0pi0 -> 2x10^-6, Jim Olsen - Mar 27, 2001) +0.000004 pi+ pi- SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000002 pi0 pi0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 pi0 eta SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 pi0 eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 pi0 a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 pi0 f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 omega pi0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_10 pi0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 b_10 pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta eta SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 omega eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 rho0 eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_10 eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 b_10 eta SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta' eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta' a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta' f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 omega eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 rho0 eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_10 eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 b_10 eta' SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 a_00 a_00 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_00 f_0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 omega a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 rho0 a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 a_10 a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 b_10 a_00 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 f_0 f_0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 omega f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 rho0 f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 a_10 f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 b_10 f_0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000030 pi- pi+ pi0 BTO3PI_CP dm alpha; +# Don't use this since other Kpipi states not done +#0.00000108 K- pi+ pi0 BTOKPIPI_CP dm alpha beta; +# +0.000005 phi anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 phi K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000005 phi K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 phi rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi eta SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 phi eta' SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 phi phi SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi omega SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta K_S0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta K_L0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.0000445 eta' K_S0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000445 eta' K_L0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.0000025 omega K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000025 omega K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; + +0.0000035 K*S eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000035 K*L eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000070 anti-K*0T eta SVS; +0.000001 K*S eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 K*L eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000002 anti-K*0T eta' SVS; +0.000001 K*S omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*L omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 anti-K*0T omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega rho0 SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +# +#2-body modes from Jim Olsen +# (K_S0pi0 and K_L0pi0 -> 4x10^-6, Jim Olsen - Mar 27, 2001) +0.000017 K- pi+ PHSP; +0.000003 K+ K- PHSP; +0.000004 K_S0 K_S0 PHSP; +0.000008 K_S0 K_L0 PHSP; +0.000004 K_L0 K_L0 PHSP; +0.000004 K_S0 pi0 PHSP; +0.000004 K_L0 pi0 PHSP; +#3,4-body modes from Jim Smith +0.000001 rho0 anti-K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000030 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_1+ pi- SVS; +0.000010 a_1- pi+ SVS; +# +0.000002 anti-K*0 pi0 SVS; +0.000005 K*- pi+ SVS; +0.000001 rho+ K- SVS; +0.000001 rho0 K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 rho0 K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 anti-K*0 K_L0 SVS; +0.000001 anti-K*0 K_S0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see BTO3PI_CP above) +0.000000 rho0 pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000000 rho+ pi- PHSP; +0.000000 rho- pi+ PHSP; +# +0.00600 anti-u d u anti-d JETSET 48; +#Penguins from Aaron Roodman +0.00410 anti-u u d anti-d JETSET 48; +0.00070 anti-d d d anti-d JETSET 48; +0.00090 anti-s s d anti-d JETSET 48; +0.00220 anti-u u s anti-d JETSET 48; +0.00180 anti-d d s anti-d JETSET 48; +0.00150 anti-s s s anti-d JETSET 48; +0.00500 s g anti-d JETSET 33; +Enddecay +# +Decay B- +# +# b -> u l nu +# +0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; +0.000030 eta e- anti-nu_e PHOTOS ISGW2; +0.000130 rho0 e- anti-nu_e PHOTOS ISGW2; +0.000130 omega e- anti-nu_e PHOTOS ISGW2; +0.000060 eta' e- anti-nu_e PHOTOS ISGW2; +0.000082 a_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_20 e- anti-nu_e PHOTOS ISGW2; +0.000048 b_10 e- anti-nu_e PHOTOS ISGW2; +0.000007 a_00 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_0 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_0 e- anti-nu_e PHOTOS ISGW2; +0.000041 f_1 e- anti-nu_e PHOTOS ISGW2; +0.000041 f'_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h_1 e- anti-nu_e PHOTOS ISGW2; +0.000024 h'_1 e- anti-nu_e PHOTOS ISGW2; +0.000004 f_2 e- anti-nu_e PHOTOS ISGW2; +0.000004 f'_2 e- anti-nu_e PHOTOS ISGW2; +0.000616 Xu0 e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000090 pi0 mu- anti-nu_mu PHOTOS ISGW2; +0.000030 eta mu- anti-nu_mu PHOTOS ISGW2; +0.000130 rho0 mu- anti-nu_mu PHOTOS ISGW2; +0.000130 omega mu- anti-nu_mu PHOTOS ISGW2; +0.000060 eta' mu- anti-nu_mu PHOTOS ISGW2; +0.000082 a_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_20 mu- anti-nu_mu PHOTOS ISGW2; +0.000048 b_10 mu- anti-nu_mu PHOTOS ISGW2; +0.000007 a_00 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu- anti-nu_mu PHOTOS ISGW2; +0.000616 Xu0 mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000030 pi0 tau- anti-nu_tau ISGW2; +0.000012 eta tau- anti-nu_tau ISGW2; +0.000042 rho0 tau- anti-nu_tau ISGW2; +0.000042 omega tau- anti-nu_tau ISGW2; +0.000018 eta' tau- anti-nu_tau ISGW2; +0.000046 a_10 tau- anti-nu_tau ISGW2; +0.000027 b_10 tau- anti-nu_tau ISGW2; +0.000004 a_00 tau- anti-nu_tau ISGW2; +0.000002 f_0 tau- anti-nu_tau ISGW2; +0.000002 f'_0 tau- anti-nu_tau ISGW2; +0.000023 f_1 tau- anti-nu_tau ISGW2; +0.000023 f'_1 tau- anti-nu_tau ISGW2; +0.000013 h_1 tau- anti-nu_tau ISGW2; +0.000013 h'_1 tau- anti-nu_tau ISGW2; +0.000020 f_2 tau- anti-nu_tau ISGW2; +0.000020 f'_2 tau- anti-nu_tau ISGW2; +# +# b -> l nu +# +0.000050 tau- anti-nu_tau SLN; +0.000000 mu- anti-nu_mu PHOTOS SLN; +0.000000 e- anti-nu_e PHOTOS SLN; +# +# +0.000045 K*- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 K_1- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 K'_1- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 K'*- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 K_2*- gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 K''*- gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 anti-Xsu gamma BTOXSGAMMA 2 ; +# +0.00000057 K- e+ e- PHOTOS BTOSLLBALL; +0.0000023 K*- e+ e- PHOTOS BTOSLLBALL; +0.000004 anti-Xsu e+ e- PHOTOS BTOXSLL; +0.00000057 K- mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 K*- mu+ mu- PHOTOS BTOSLLBALL; +0.000004 anti-Xsu mu+ mu- PHOTOS BTOXSLL; +0.00000013 K- tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 K*- tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 anti-Xsu tau+ tau- PHOTOS BTOXSLL; +# +# Exclusive hadronic b->u +# +0.000026 pi- pi0 pi0 CB3PI-P00 alpha; +0.000011 pi- pi- pi+ CB3PI-MPP alpha; +#### +0.000005 eta pi- PHSP; +0.000002 eta K- PHSP; +0.0000264 K*- eta SVS; +0.000005 rho- eta SVS; +0.000002 eta' pi- PHSP; +0.000080 eta' K- PHSP; +0.000005 K*- eta' SVS; +0.000005 rho- eta' SVS; +0.0000113 omega pi- SVS; +0.000005 omega K- SVS; +0.000005 omega K*- PHSP; +0.000015 omega rho- PHSP; +0.000001 phi pi- SVS; +0.000010 phi K- SVS; +0.000010 K*- phi PHSP; +0.000001 phi rho- PHSP; +#2-body modes from Jim Olsen +# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001) +# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001) +0.000009 K_S0 pi- PHSP; +0.000009 K_L0 pi- PHSP; +0.000001 K_S0 K- PHSP; +0.000001 K_L0 K- PHSP; +0.000005 pi- pi0 PHSP; +0.000011 K- pi0 PHSP; +#3,4-body modes from Jim Smith +0.000010 rho- anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 rho- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*- K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_10 pi- SVS; +0.000010 a_1- pi0 SVS; +0.000005 anti-K*0 pi- SVS; +0.000005 K*- pi0 SVS; +0.000001 rho0 K- SVS; +0.000001 rho- K_S0 SVS; +0.000001 rho- K_L0 SVS; +0.000001 K*0 K- SVS; +0.000001 K*- K_S0 SVS; +0.000001 K*- K_L0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see CB3PI above) +0.000000 rho- pi0 SVS; +0.000000 rho0 pi- SVS; +# +0.00600 anti-u d u anti-u JETSET 48; +#Penguins from Aaron Roodman +0.00410 anti-u u d anti-u JETSET 48; +0.00070 anti-d d d anti-u JETSET 48; +0.00090 anti-s s d anti-u JETSET 48; +0.00220 anti-u u s anti-u JETSET 48; +0.00180 anti-d d s anti-u JETSET 48; +0.00150 anti-s s s anti-u JETSET 48; +0.00500 s g anti-u JETSET 33; +Enddecay +# +End diff --git a/BaBar_2014/rare2.dec b/BaBar_2014/rare2.dec new file mode 100644 index 0000000..2ba6cd0 --- /dev/null +++ b/BaBar_2014/rare2.dec @@ -0,0 +1,445 @@ + #################################################### + # # + # Decay: B -> all non-charm final states # + # # + # Author: J. Smith # + # Created: September 27, 2000 # + # Modified: September 21, 2001 # + # # + ##################################################### + +# +# + +# +Decay Upsilon(4S) +0.500 B+ B- VSS; +0.500 B0 anti-B0 VSS; +Enddecay + +#Define the B0B0bar mass difference +Define dm 0.472e12 +Define dgamma 0 +Define qoverp 1 +Define phaseqoverp 0 +# define the values of the CKM angles (alpha=70, beta=40) +Define alpha 1.365 +Define beta 0.39 +Define gamma 1.387 +Define twoBetaPlusGamma 2.167 +Define betaPlusHalfGamma 1.0835 + +# New definitions for psiKstar modes (Lange, July 26, 2000) +Define PKHplus 0.159 +Define PKHzero 0.775 +Define PKHminus 0.612 +Define PKphHplus 1.563 +Define PKphHzero 0.0 +Define PKphHminus 2.712 + +Define Aplus 0.490 +Define Azero 1.10 +Define Aminus 0.4 +# +Define phAplus 2.5 +Define phAzero 0.0 +Define phAminus -0.17 + +# +# These particle aliases are used in for CP violating decays +# in which the decay distributions depends on how the K* decayed. +# +# +Alias K*L K*0 +Alias K*S K*0 +Alias K*0T K*0 +Alias anti-K*0T anti-K*0 +Alias K*BR anti-K*0 +Alias K*0R K*0 +Alias anti-K_0*0N anti-K_0*0 +Alias K_0*0N K_0*0 +# +ChargeConj K*0T anti-K*0T +ChargeConj K_0*0N anti-K_0*0N +ChargeConj K*0R K*BR +# +#JetSet parameter modifications +# +# O.Long : March 30, 2000 +# Change from using Peterson fragmentation to Lund fragmentation +# with the default parameters (A=0.30, B=0.58) +# +#(Very important that there are no blank spaces in the parameter string!) +# Number of flavor produced. 4 = udsc production (was 5 before) +JetSetPar MSTJ(104)=5 +# turn on initial state radiation (was off before) +JetSetPar MSTJ(107)=1 +#use Lund fragmentation with default parameters +JetSetPar MSTJ(11)=4 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(41)=.30 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(42)=.58 +# Lund symmetric fragmentation function parameter a +JetSetPar PARJ(43)=.50 +# Lund symmetric fragmentation function parameter b +JetSetPar PARJ(44)=.90 +#eps_c from CLEO 8/97 +JetSetPar PARJ(54)=-.040 +# eps_b +JetSetPar PARJ(55)=-.004 +#Turn of B0-B0B mixing in JetSet: +JetSetPar MSTJ(26)=0 +# control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1 +JetSetPar PARJ(14)=0.05 +JetSetPar PARJ(15)=0.05 +JetSetPar PARJ(16)=0.05 +JetSetPar PARJ(17)=0.05 +#cut-off parameter used to stop fragmentation process (was .4, CLEO uses.3) +JetSetPar PARJ(33)=0.3 +# +### Parameters below are a new tuning of the continuum +### fragmentation that softens the pion spectrum +### but commented out untill verified to be physically +### sound. ryd 00-02-10 +### Lund symmetric fragmentation function parameter a +##JetSetPar PARJ(41)=.40 +### Lund symmetric fragmentation function parameter b +##JetSetPar PARJ(42)=.29 +### Lund symmetric fragmentation function parameter a +##JetSetPar PARJ(43)=.60 +### Lund symmetric fragmentation function parameter b +##JetSetPar PARJ(44)=.45 +###eps_c from CLEO 8/97 +##JetSetPar PARJ(54)=-.040 +##JetSetPar PARJ(46)=0.0 +##JetSetPar PARJ(33)=0.2 +###End of new continuum tuning +# +Decay B0 +# +# b -> u l nu +# +# 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV. +# with some thresholds to gradually switch from excl. to incl. +# modeling without big jumps keeping the better known excl. +# Brs at their actual values and constrain the incl. Br and +# weights in a way that ~40% of the total BR belongs to +# the mass region > 1.5 GeV +# +0.000180 pi- e+ nu_e PHOTOS ISGW2; +0.000260 rho- e+ nu_e PHOTOS ISGW2; +0.000165 a_1- e+ nu_e PHOTOS ISGW2; +0.000102 b_1- e+ nu_e PHOTOS ISGW2; +0.000014 a_0- e+ nu_e PHOTOS ISGW2; +0.000014 a_2- e+ nu_e PHOTOS ISGW2; +0.000000 rho(2S)- e+ nu_e PHOTOS ISGW2; +0.000616 Xu- e+ nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +0.000180 pi- mu+ nu_mu PHOTOS ISGW2; +0.000260 rho- mu+ nu_mu PHOTOS ISGW2; +0.000165 a_1- mu+ nu_mu PHOTOS ISGW2; +0.000102 b_1- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_0- mu+ nu_mu PHOTOS ISGW2; +0.000014 a_2- mu+ nu_mu PHOTOS ISGW2; +0.000000 rho(2S)- mu+ nu_mu PHOTOS ISGW2; +0.000616 Xu- mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 + 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 + 1.897 0.978 1.949 0.984 2 1; +# +0.000060 pi- tau+ nu_tau ISGW2; +0.000083 rho- tau+ nu_tau ISGW2; +0.000090 a_1- tau+ nu_tau ISGW2; +0.000008 b_1- tau+ nu_tau ISGW2; +0.000008 a_0- tau+ nu_tau ISGW2; +0.000008 a_2- tau+ nu_tau ISGW2; +0.000000 rho(2S)- tau+ nu_tau ISGW2; +# +# +0.000045 K*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 K_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 K'_10 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 K'*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 K''*0 gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 Xsd gamma BTOXSGAMMA 2 ; +# +0.00000057 K0 e+ e- PHOTOS BTOSLLBALL; +0.0000023 K*0 e+ e- PHOTOS BTOSLLBALL; +0.000004 Xsd e+ e- PHOTOS BTOXSLL; +0.00000057 K0 mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 K*0 mu+ mu- PHOTOS BTOSLLBALL; +0.000004 Xsd mu+ mu- PHOTOS BTOXSLL; +0.00000013 K0 tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 K*0 tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 Xsd tau+ tau- PHOTOS BTOXSLL; +# +# B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036 +# (pi0pi0 -> 2x10^-6, Jim Olsen - Mar 27, 2001) +# +0.000004 pi+ pi- SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000002 pi0 pi0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 pi0 eta SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 pi0 eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 pi0 a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 pi0 f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 omega pi0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_10 pi0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 b_10 pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta eta SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 omega eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 rho0 eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_10 eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 b_10 eta SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta' eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta' a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta' f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 omega eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 rho0 eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_10 eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 b_10 eta' SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 a_00 a_00 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 a_00 f_0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 omega a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 rho0 a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 a_10 a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 b_10 a_00 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 f_0 f_0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 omega f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 rho0 f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 a_10 f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 b_10 f_0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000030 pi- pi+ pi0 BTO3PI_CP dm alpha; +# Don't use this since other Kpipi states not done +#0.00000108 K+ pi- pi0 BTOKPIPI_CP dm alpha beta; +# +0.000005 phi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.0000025 phi K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 phi K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000005 phi K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 phi rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi eta SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 phi eta' SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 phi phi SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi omega SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 phi pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 eta K_S0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 eta K_L0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.0000445 eta' K_S0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000445 eta' K_L0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.0000025 omega K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000025 omega K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; + +0.0000035 K*S eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000035 K*L eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.0000070 K*0T eta SVS; +0.000001 K*S eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 K*L eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000002 K*0T eta' SVS; +0.000001 K*S omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*L omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 K*0T omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 omega rho0 SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +# +#2-body modes from Jim Olsen +# (K_S0 pi0 and K_L0 pi0 -> 4x10^-6, Jim Olsen - Mar 27, 2001) +0.000017 K+ pi- PHSP; +0.000003 K+ K- PHSP; +0.000004 K_S0 K_S0 PHSP; +0.000008 K_S0 K_L0 PHSP; +0.000004 K_L0 K_L0 PHSP; +0.000004 K_S0 pi0 PHSP; +0.000004 K_L0 pi0 PHSP; +#3,4-body modes from Jim Smith +0.000001 rho0 K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 rho0 K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000002 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; +0.000030 rho+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_1+ pi- SVS; +0.000010 a_1- pi+ SVS; +# +0.000002 K*0 pi0 SVS; +0.000005 K*+ pi- SVS; +0.000001 rho- K+ SVS; +0.000001 rho0 K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; +0.000001 rho0 K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000001 K*0 K_S0 SVS; +0.000001 K*0 K_L0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see BTO3PI_CP above) +0.000000 rho0 pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; +0.000000 rho+ pi- PHSP; +0.000000 rho- pi+ PHSP; +# +0.00600 u anti-d anti-u d JETSET 48; +#Penguins from Aaron Roodman +0.00410 u anti-u anti-d d JETSET 48; +0.00070 d anti-d anti-d d JETSET 48; +0.00090 s anti-s anti-d d JETSET 48; +0.00220 u anti-u anti-s d JETSET 48; +0.00180 d anti-d anti-s d JETSET 48; +0.00150 s anti-s anti-s d JETSET 48; +0.00500 anti-s g d JETSET 33; +Enddecay +# +Decay B+ +# +# b -> u l nu +# +0.000090 pi0 e+ nu_e PHOTOS ISGW2; +0.000030 eta e+ nu_e PHOTOS ISGW2; +0.000130 rho0 e+ nu_e PHOTOS ISGW2; +0.000130 omega e+ nu_e PHOTOS ISGW2; +0.000060 eta' e+ nu_e PHOTOS ISGW2; +0.000082 a_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_20 e+ nu_e PHOTOS ISGW2; +0.000048 b_10 e+ nu_e PHOTOS ISGW2; +0.000007 a_00 e+ nu_e PHOTOS ISGW2; +0.000004 f_0 e+ nu_e PHOTOS ISGW2; +0.000004 f'_0 e+ nu_e PHOTOS ISGW2; +0.000041 f_1 e+ nu_e PHOTOS ISGW2; +0.000041 f'_1 e+ nu_e PHOTOS ISGW2; +0.000024 h_1 e+ nu_e PHOTOS ISGW2; +0.000024 h'_1 e+ nu_e PHOTOS ISGW2; +0.000004 f_2 e+ nu_e PHOTOS ISGW2; +0.000004 f'_2 e+ nu_e PHOTOS ISGW2; +0.000616 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000090 pi0 mu+ nu_mu PHOTOS ISGW2; +0.000030 eta mu+ nu_mu PHOTOS ISGW2; +0.000130 rho0 mu+ nu_mu PHOTOS ISGW2; +0.000130 omega mu+ nu_mu PHOTOS ISGW2; +0.000060 eta' mu+ nu_mu PHOTOS ISGW2; +0.000082 a_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_20 mu+ nu_mu PHOTOS ISGW2; +0.000048 b_10 mu+ nu_mu PHOTOS ISGW2; +0.000007 a_00 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_0 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_0 mu+ nu_mu PHOTOS ISGW2; +0.000041 f_1 mu+ nu_mu PHOTOS ISGW2; +0.000041 f'_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h_1 mu+ nu_mu PHOTOS ISGW2; +0.000024 h'_1 mu+ nu_mu PHOTOS ISGW2; +0.000004 f_2 mu+ nu_mu PHOTOS ISGW2; +0.000004 f'_2 mu+ nu_mu PHOTOS ISGW2; +0.000616 Xu0 mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 13 + 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 + 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 + 1.897 0.989 1.949 0.99 2 1; +# +0.000030 pi0 tau+ nu_tau ISGW2; +0.000012 eta tau+ nu_tau ISGW2; +0.000042 rho0 tau+ nu_tau ISGW2; +0.000042 omega tau+ nu_tau ISGW2; +0.000018 eta' tau+ nu_tau ISGW2; +0.000046 a_10 tau+ nu_tau ISGW2; +0.000027 b_10 tau+ nu_tau ISGW2; +0.000004 a_00 tau+ nu_tau ISGW2; +0.000002 f_0 tau+ nu_tau ISGW2; +0.000002 f'_0 tau+ nu_tau ISGW2; +0.000023 f_1 tau+ nu_tau ISGW2; +0.000023 f'_1 tau+ nu_tau ISGW2; +0.000013 h_1 tau+ nu_tau ISGW2; +0.000013 h'_1 tau+ nu_tau ISGW2; +0.000020 f_2 tau+ nu_tau ISGW2; +0.000020 f'_2 tau+ nu_tau ISGW2; +# +# +0.000045 K*+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000135 K_1+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000065 K'_1+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000128 K'*+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000166 K_2*+ gamma HELAMP 1.0 0.0 1.0 0.0; +#0.0000017 K''*+ gamma HELAMP 1.0 0.0 1.0 0.0; +0.000284 Xsu gamma BTOXSGAMMA 2 ; +# +0.00000057 K+ e+ e- PHOTOS BTOSLLBALL; +0.0000023 K*+ e+ e- PHOTOS BTOSLLBALL; +0.000004 Xsu e+ e- PHOTOS BTOXSLL; +0.00000057 K+ mu+ mu- PHOTOS BTOSLLBALL; +0.0000019 K*+ mu+ mu- PHOTOS BTOSLLBALL; +0.000004 Xsu mu+ mu- PHOTOS BTOXSLL; +0.00000013 K+ tau+ tau- PHOTOS BTOSLLBALL; +0.00000019 K*+ tau+ tau- PHOTOS BTOSLLBALL; +0.0000002 Xsu tau+ tau- PHOTOS BTOXSLL; +# +# b -> l nu +# +0.000050 tau+ nu_tau SLN; +0.000000 mu+ nu_mu PHOTOS SLN; +0.000000 e+ nu_e PHOTOS SLN; +# +# Exclusive hadronic b->u +# +0.000026 pi+ pi0 pi0 CB3PI-P00 alpha; +0.000011 pi+ pi+ pi- CB3PI-MPP alpha; +#### +0.000005 eta pi+ PHSP; +0.000002 eta K+ PHSP; +0.0000264 K*+ eta SVS; +0.000005 rho+ eta SVS; +0.000002 eta' pi+ PHSP; +0.000080 eta' K+ PHSP; +0.000005 K*+ eta' SVS; +0.000005 rho+ eta' SVS; +0.0000113 omega pi+ SVS; +0.000005 omega K+ SVS; +0.000005 omega K*+ PHSP; +0.000015 omega rho+ PHSP; +0.000001 phi pi+ SVS; +0.000010 phi K+ SVS; +0.000010 K*+ phi PHSP; +0.000001 phi rho+ PHSP; +#2-body modes from Jim Olsen +# (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001) +# (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001) +0.000009 K_S0 pi+ PHSP; +0.000009 K_L0 pi+ PHSP; +0.000001 K_S0 K+ PHSP; +0.000001 K_L0 K+ PHSP; +0.000005 pi+ pi0 PHSP; +0.000011 K+ pi0 PHSP; +#3,4-body modes from Jim Smith +0.000010 rho+ K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000005 rho0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 rho+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000001 K*+ anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; +0.000010 a_10 pi+ SVS; +0.000010 a_1+ pi0 SVS; +0.000005 K*0 pi+ SVS; +0.000005 K*+ pi0 SVS; +0.000001 rho0 K+ SVS; +0.000001 rho+ K_S0 SVS; +0.000001 rho+ K_L0 SVS; +0.000001 anti-K*0 K+ SVS; +0.000001 K*+ K_S0 SVS; +0.000001 K*+ K_L0 SVS; +# Put in with 0 BR to keep JETSET from generating these (see CB3PI above) +0.000000 rho+ pi0 SVS; +0.000000 rho0 pi+ SVS; +# +0.00600 u anti-d anti-u u JETSET 48; +#Penguins from Aaron Roodman +0.00410 u anti-u anti-d u JETSET 48; +0.00070 d anti-d anti-d u JETSET 48; +0.00090 s anti-s anti-d u JETSET 48; +0.00220 u anti-u anti-s u JETSET 48; +0.00180 d anti-d anti-s u JETSET 48; +0.00150 s anti-s anti-s u JETSET 48; +0.00500 anti-s g u JETSET 33; +Enddecay +# +End diff --git a/BaBar_2014/tau_KmKsrho0nu.dec b/BaBar_2014/tau_KmKsrho0nu.dec new file mode 100644 index 0000000..06a6e50 --- /dev/null +++ b/BaBar_2014/tau_KmKsrho0nu.dec @@ -0,0 +1,29 @@ +############################################################# +# # +# tau- production # +# tau- -> K- K0s rho0 nu_tau, Ks -> pi+ pi-, rho0 -> pi+pi- # +# # +# created: hnichols april 10, 2000 # +############################################################# +# +Alias mytau- tau- +Alias myK_S0 K_S0 +Alias myrho0 rho0 +# +Decay vpho +1.00 tau- tau+ VLL; +Enddecay +# +Decay tau- +1.00 K- myK_S0 myrho0 nu_tau PHSP; +Enddecay +# +Decay myK_S0 +1.00 pi+ pi- PHSP; +Enddecay +# +Decay myrho0 +1.00 pi+ pi- VSS; +Enddecay +# +End diff --git a/BaBar_2014/uds.dec b/BaBar_2014/uds.dec new file mode 100644 index 0000000..435d1f4 --- /dev/null +++ b/BaBar_2014/uds.dec @@ -0,0 +1,11 @@ +# +# Force the fragmentation to produce a ddbar, uubar or ssbar pair +# +# Contact: Anders Ryd (ryd@hep.caltech.edu) +# +Decay vpho +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay +End diff --git a/BaBar_2014/udsmoff.dec b/BaBar_2014/udsmoff.dec new file mode 100644 index 0000000..a280c5f --- /dev/null +++ b/BaBar_2014/udsmoff.dec @@ -0,0 +1,12 @@ +# +# Force the fragmentation to produce a ddbar, uubar or ssbar pair +# Intended for use in generating off-resonance MC data. C. Hearty +# Contact: Anders Ryd (ryd@hep.caltech.edu) +# +Decay vpho +1.0 JSCONT 1; +4.0 JSCONT 2; +1.0 JSCONT 3; +Enddecay +End + diff --git a/BaBar_2014/vph_jpsiccbar_lplm_cocktail.dec b/BaBar_2014/vph_jpsiccbar_lplm_cocktail.dec new file mode 100644 index 0000000..516c83e --- /dev/null +++ b/BaBar_2014/vph_jpsiccbar_lplm_cocktail.dec @@ -0,0 +1,56 @@ +############################################################################# +# # +# vpho -> J/psi eta_c(2S) # +# -> J/psi eta_c # +# -> J/psi chi_c0 # +# -> J/psi chi_c1 # +# -> J/psi chi_c2 # +# williamg@utdallas.edu # +# # +# --Shuwei YE, July-24, 2003 # +# comment out the JETSET mode of eta_c(2S) because JETSET does not it # +# # +############################################################################# + + +Decay vpho +0.200 J/psi eta_c(2S) PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0 ; +0.200 J/psi eta_c PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0 ; +0.200 J/psi chi_c0 PHSP; +0.200 J/psi chi_c1 PHSP; +0.200 J/psi chi_c2 PHSP; + +Enddecay + +Decay J/psi +0.500 e+ e- VLL; +0.500 mu+ mu- VLL; +Enddecay + +Decay eta_c(2S) + 0.0012 p+ anti-p- PHSP; + 0.04 pi+ pi- eta_c PHSP; + 0.02 pi0 pi0 eta_c PHSP; + 0.0071 phi phi PHSP; + 0.0087 rho0 rho0 PHSP; + 0.0173 rho+ rho- PHSP; + 0.0120 pi+ pi- pi+ pi- PHSP; + 0.0210 K+ K- K+ K- PHSP; + 0.0200 K+ K- pi+ pi- PHSP; + 0.0327 eta pi+ pi- PHSP; + 0.0163 eta pi0 pi0 PHSP; + 0.0273 eta' pi+ pi- PHSP; + 0.0137 eta' pi0 pi0 PHSP; + 0.0092 pi0 K+ K- PHSP; + 0.0184 K+ anti-K0 pi- PHSP; + 0.0184 K- K0 pi+ PHSP; + 0.0092 K0 anti-K0 pi0 PHSP; + 0.0043 K*+ K*- PHSP; + 0.0042 K*0 anti-K*0 PHSP; + 0.0100 K*0 K- pi+ PHSP; + 0.0100 anti-K*0 K+ pi- PHSP; +# 0.7390 rndmflav anti-rndmflav JETSET 12; +# !! JETSET doesn't know eta_c(2S) +Enddecay + +End diff --git a/BaBar_2014/vph_psi2sccbar_lplm_cocktail.dec b/BaBar_2014/vph_psi2sccbar_lplm_cocktail.dec new file mode 100644 index 0000000..71f9ff5 --- /dev/null +++ b/BaBar_2014/vph_psi2sccbar_lplm_cocktail.dec @@ -0,0 +1,75 @@ +############################################################################# +# # +# vpho -> psi(2S) eta_c(2S) # +# -> psi(2S) ets_c # +# -> psi(2S) chi_c0 # +# -> psi(2S) chi_c1 # +# -> psi(2S) chi_c2 # +# # +# williamg@utdallas.edu # +# # +# --Shuwei YE, July-24, 2003 # +# comment out the JETSET mode of eta_c(2S) because JETSET does not it # +# # +############################################################################# + + +Alias mychi_c1 chi_c1 +Alias mychi_c2 chi_c2 + +Decay vpho +0.200 psi(2S) eta_c(2S) PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0 ; +0.200 psi(2S) eta_c PARTWAVE 0.0 0.0 1.0 0.0 0.0 0.0 ; +0.200 psi(2S) chi_c0 PHSP; +0.200 psi(2S) chi_c1 PHSP; +0.200 psi(2S) chi_c2 PHSP; +Enddecay + +Decay psi(2S) +0.305 J/psi pi+ pi- PHSP; +0.182 J/psi pi0 pi0 PHSP; +0.031 J/psi eta VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; +0.084 gamma mychi_c1 PHSP; +0.068 gamma mychi_c2 PHSP; +Enddecay + +Decay mychi_c1 +1.00 gamma J/psi PHSP; +Enddecay + +Decay mychi_c2 +1.00 gamma J/psi PHSP; +Enddecay + +Decay J/psi +0.500 e+ e- VLL; +0.500 mu+ mu- VLL; +Enddecay + +Decay eta_c(2S) + 0.0012 p+ anti-p- PHSP; + 0.04 pi+ pi- eta_c PHSP; + 0.02 pi0 pi0 eta_c PHSP; + 0.0071 phi phi PHSP; + 0.0087 rho0 rho0 PHSP; + 0.0173 rho+ rho- PHSP; + 0.0120 pi+ pi- pi+ pi- PHSP; + 0.0210 K+ K- K+ K- PHSP; + 0.0200 K+ K- pi+ pi- PHSP; + 0.0327 eta pi+ pi- PHSP; + 0.0163 eta pi0 pi0 PHSP; + 0.0273 eta' pi+ pi- PHSP; + 0.0137 eta' pi0 pi0 PHSP; + 0.0092 pi0 K+ K- PHSP; + 0.0184 K+ anti-K0 pi- PHSP; + 0.0184 K- K0 pi+ PHSP; + 0.0092 K0 anti-K0 pi0 PHSP; + 0.0043 K*+ K*- PHSP; + 0.0042 K*0 anti-K*0 PHSP; + 0.0100 K*0 K- pi+ PHSP; + 0.0100 anti-K*0 K+ pi- PHSP; +# 0.7390 rndmflav anti-rndmflav JETSET 12; +# !! JETSET doesn't know eta_c(2S) +Enddecay + +End diff --git a/BaBar_2014/vph_to_JpsiJpsi.dec b/BaBar_2014/vph_to_JpsiJpsi.dec new file mode 100644 index 0000000..3795b54 --- /dev/null +++ b/BaBar_2014/vph_to_JpsiJpsi.dec @@ -0,0 +1,24 @@ +########################################################### +# # +# vph --> J/psi J/psi # +# | | --> cocktail # +# | # +# | --> ee mumu # +# # +# Author Glenn Williams williamg@utdallas.edu # +# # +########################################################### + + + Alias myJ/psi J/psi + + Decay vpho + 1.00 myJ/psi J/psi PHSP; + Enddecay + + Decay myJ/psi + 0.500 e+ e- VLL; + 0.500 mu+ mu- VLL; + Enddecay + + End diff --git a/BaBar_2014/vph_to_JpsiX3872.dec b/BaBar_2014/vph_to_JpsiX3872.dec new file mode 100644 index 0000000..6af7796 --- /dev/null +++ b/BaBar_2014/vph_to_JpsiX3872.dec @@ -0,0 +1,26 @@ +############################################################## +# # +# vph --> J/psi X(3872) # +# | | --> Decays like psi(2S) # +# | # +# | # +# | --> (ee,mumu) # +# # +# # +# Author Glenn Williams williamg@utdallas.edu # +############################################################## + + Particle psi(2S) 3.872 0.0 + Alias myX psi(2S) + Alias myJ/psi J/psi + + Decay vpho + 1.00 myJ/psi myX PHSP; + Enddecay + + Decay myJ/psi + 0.500 e+ e- VLL; + 0.500 mu+ mu- VLL; + Enddecay + + End diff --git a/BaBar_2014/vph_to_isrX3872.dec b/BaBar_2014/vph_to_isrX3872.dec new file mode 100644 index 0000000..485a25d --- /dev/null +++ b/BaBar_2014/vph_to_isrX3872.dec @@ -0,0 +1,31 @@ +######################################################################## +# # +# vph --> gamma X(3872) # +# | # +# | --> J/psi pi+ pi- # +# # +# # +# Author Glenn Williams williamg@utdallas.edu # +######################################################################## + + Particle psi(2S) 3.872 0.0 + Alias myX psi(2S) + Alias myJ/psi J/psi + + Decay vpho + 1.00 myX gamma VECTORISR 0.99 0.99; + Enddecay + + Decay myX + 1.00 myJ/psi pi+ pi- PHSP; + Enddecay + + Decay myJ/psi + 0.500 e+ e- VLL; + 0.500 mu+ mu- VLL; + Enddecay + + End + + + diff --git a/BaBar_2014/vph_to_isr_psi3770.dec b/BaBar_2014/vph_to_isr_psi3770.dec new file mode 100644 index 0000000..c4784da --- /dev/null +++ b/BaBar_2014/vph_to_isr_psi3770.dec @@ -0,0 +1,29 @@ +######################################################################## +# # +# vph --> gamma psi(3770) # +# | # +# | --> J/psi pi+ pi- # +# | # +# | --> e+e- mu+ mu- # +# Author Glenn Williams williamg@utdallas.edu # +######################################################################## + + Alias myJ/psi J/psi + + Decay vpho + 1.00 psi(3770) gamma VECTORISR 0.9999 0.9999; + Enddecay + + Decay psi(3770) + 1.00 myJ/psi pi+ pi- PHSP; + Enddecay + + Decay myJ/psi + 0.500 e+ e- VLL; + 0.500 mu+ mu- VLL; + Enddecay + + End + + + diff --git a/README b/README new file mode 100644 index 0000000..e245c5d --- /dev/null +++ b/README @@ -0,0 +1,5 @@ +BaBar_DecFiles +============== +4/19/2014 The spokesman of BaBar, Prof. J. M. Roney, granted CMS access to use the BaBar DEC files in the original or + modified form. All work that uses the files in part or whole must acknowledge the BaBar experiment for providing + access to this work. The validation and correct use of these files in user's enviroment is the responsibility of the user. \ No newline at end of file diff --git a/README~ b/README~ new file mode 100644 index 0000000..56fa30d --- /dev/null +++ b/README~ @@ -0,0 +1,5 @@ +BaBar_DecFiles +============== +4/19/2014 The spokesman of BaBar, Prof. J. M. Roney, granted CMS access to use the BaBar DEC files in the original or + modified form. All work that uses the files in part or whole must acknowledge the BaBar experiment for providing + access to this work. The validation and correct use of these files in user's enviroment is the responsibility of the user. \ No newline at end of file From 26cb350c23ed00fb0b6f8887741ac995f79960fd Mon Sep 17 00:00:00 2001 From: inugent Date: Thu, 14 Aug 2014 09:56:03 +0200 Subject: [PATCH 2/3] Delete README~ --- README~ | 5 ----- 1 file changed, 5 deletions(-) delete mode 100644 README~ diff --git a/README~ b/README~ deleted file mode 100644 index 56fa30d..0000000 --- a/README~ +++ /dev/null @@ -1,5 +0,0 @@ -BaBar_DecFiles -============== -4/19/2014 The spokesman of BaBar, Prof. J. M. Roney, granted CMS access to use the BaBar DEC files in the original or - modified form. All work that uses the files in part or whole must acknowledge the BaBar experiment for providing - access to this work. The validation and correct use of these files in user's enviroment is the responsibility of the user. \ No newline at end of file From 20fd3afa2adff229dd902b060338596f650601b7 Mon Sep 17 00:00:00 2001 From: inugent Date: Thu, 14 Aug 2014 09:56:46 +0200 Subject: [PATCH 3/3] Delete .gitignore --- .gitignore | 1 - 1 file changed, 1 deletion(-) delete mode 100644 .gitignore diff --git a/.gitignore b/.gitignore deleted file mode 100644 index 8b13789..0000000 --- a/.gitignore +++ /dev/null @@ -1 +0,0 @@ -